Ejemplo n.º 1
0
void ofxCircOSC::isOnDrawInfo(int xMouse,int yMouse,int x, int y){//init in Draw with mousePos values
	//This func shows the an info particle if the mouse is on
	if(ofDist(X,Y,xMouse,yMouse)<tamano)myfont.drawString(nombre, x,y);
}	
Ejemplo n.º 2
0
// Update & draw
void
Faces::update()
{
    if (isThereMbodybool){
        
        b2Vec2 bodyPos = mBody->GetPosition();
    //    cout << "bodypos: x: " << bodyPos.x << " y: " << bodyPos.y << endl;
    //    cout << "bodypos: x: " << _toPixelX(bodyPos.x) << " y: " << _toPixelY(bodyPos.y) << endl;
        ofVec2f curPoint = ofVec2f(mVertice[curSection].x, mVertice[curSection].y);
        ofVec2f nextPoint = ofVec2f(
                mVertice[curSection].x + (addDist[curSection].x * rotSpd * (curPointofSection + 1)),
                mVertice[curSection].y + (addDist[curSection].y * rotSpd * (curPointofSection + 1)));
        
        float distBetweenPoint = ofDist(curPoint.x, curPoint.y, nextPoint.x, nextPoint.y);

        if (distBetweenPoint < dists[curSection]){
            
//            ofxOscMessage m;
//            m.setAddress("/fromOF_pBody");
//            m.addIntArg(index);
//            m.addFloatArg(bodyPos.x * BOX2D_SCALE + nextPoint.x);
//            m.addFloatArg(bodyPos.y * BOX2D_SCALE + nextPoint.y);
//            sender.sendMessage(m);
            
            
            ofPushStyle();
            ofSetColor(10, 200, 100);
            ofFill();
            
            ofPushMatrix();
            ofTranslate(bodyPos.x * BOX2D_SCALE, bodyPos.y * BOX2D_SCALE * (-1));
            ofSetColor(20, 200, 150);
            ofCircle(nextPoint.x, nextPoint.y, outliner_rad);
            
            // Outline
            vector<ofPoint> lines;
            for (int i = 0; i < curSection + 1; i++){
                ofPoint point = ofPoint(mVertice[i].x, mVertice[i].y);
                lines.push_back(point);
            }
            
            ofPolyline outline(lines);
            ofSetLineWidth(2.f);
            outline.draw();
            ofLine(curPoint.x, curPoint.y, nextPoint.x, nextPoint.y);
            
            ofPopMatrix();
            ofPopStyle();
            
            curPointofSection++;
    //        cout << "curPointofSection: " << curPointofSection << endl;

        }else{
            curSection++;
    //        cout << "curSection: " << curSection << endl;
            
            if (curSection == (kMAX_VERTICES - 1) ) {
                curSection = 0;
            }
            
            curPointofSection = 0;
        }
        
    }
}
Ejemplo n.º 3
0
// ---------------------------------------
void miniaturas::creaGrid(ofColor _color) {

    /////// arreglo de Patricio
    /////// thanks !!!!!
    int cuantas = thumbs.size();
    int numColumnas = 9;
    //  Crear una tabla de punteros donde re organizar los elementos
    //
    vector< vector<thumb*> > tabla;
    for (int i = 0; i < numColumnas; i++ ) {
        vector<thumb*> newColum;
        tabla.push_back(newColum);
    }
    int anchoMini = 49;
    int altoMini = 49;
    //  Posicionar los elementos y popular los punteros en la tabla
    //
    int col = 0;
    int row = 0;
    for (int i = 0; i < cuantas; i++) {
        col = i % numColumnas;
        row = i / numColumnas;

        //  Ponerlo en la tabla
        //
        tabla[col].push_back( thumbs[i] );

        //  Ubicarlo en el espacio
        //
        thumbs[i]->x  = origen.x -( (anchoMini + 10) * col); // las colocamos de izda a derecha
        thumbs[i]->y  = origen.y + ( (altoMini + 10) * row);
        // los movemos al origen, deberias de hacerlo en el de antes

        thumbs[i]->color.set(_color.r, _color.g, _color.b);
        thumbs[i]->cambiate(_color.r, _color.g, _color.b, 0.1*i);

    }
    //  Ahora que esta en la tabla podemos recorrerlo de forma más sencilla
    //
    for (int x = 0; x < numColumnas; x++) {

        //  Spring Verticales
        //
        for( int y = 0; y < tabla[x].size(); y++) {

            // A [ x,y ] ---- [ x+1,y ]  B
            //                  /
            //      |       /
            //      |   /
            //
            // C [ x,y+1 ]    [ x+1, y+1 ] D

            bool hayB = false;
            bool hayC = false;
            bool hayD = false;

            //  Si A tiene un C
            //
            if ( y != tabla[x].size()-1 ) {

                //vertical
                hayC = true;
                Spring * sp = new Spring();
                sp->k = k;
                sp->rectA = tabla[x][y]; //A
                sp->rectB = tabla[x][y+1]; //C
                sp->indiceA = 4;
                sp->indiceB = 4;
                sp->dist = ofDist(tabla[x][y]->getCenter().x, tabla[x][y]->getCenter().y,
                                  tabla[x][y+1]->getCenter().x, tabla[x][y+1]->getCenter().y);
                //sp->visible = true;
                springs.push_back(sp);
            }

            //  Si no es la ultima columna...
            //
            if ( x < numColumnas-1 ) {

                // ... y tiene un elemento a la misma altura en Y
                //
                if ( y < tabla[x+1].size() ) {

                    //horisontal
                    hayB = true;
                    Spring * sp = new Spring();
                    sp->k = k;
                    sp->rectA = tabla[x][y]; //A
                    sp->rectB = tabla[x+1][y]; //B
                    sp->indiceA = 4;
                    sp->indiceB = 4;
                    sp->dist = ofDist(tabla[x][y]->getCenter().x, tabla[x][y]->getCenter().y,
                                      tabla[x+1][y]->getCenter().x, tabla[x+1][y]->getCenter().y);

                    //sp->visible = true;
                    sp->horizontal = true;
                    springs.push_back(sp);

                    if ( y+1 < tabla[x+1].size() ) {
                        hayD = true;
                    }
                }
            }

            //  Si tiene B y C puede agregar la diagonal que le da estabilidad
            //
            if ( hayB && hayC ) {
                //DIAGONAL
                Spring * sp = new Spring();
                sp->k = k;
                sp->rectA = tabla[x][y+1];  // C
                sp->rectB = tabla[x+1][y];  // B
                sp->indiceA = 4;
                sp->indiceB = 4;
                sp->dist = ofDist(tabla[x][y+1]->getCenter().x, tabla[x][y+1]->getCenter().y,
                                  tabla[x+1][y]->getCenter().x, tabla[x+1][y]->getCenter().y);
                //sp->visible = true;
                sp->diagonal = true;
                springs.push_back(sp);

            }

            if ( hayD ) {
                //DIAGONAL
                Spring * sp = new Spring();
                sp->k = k;
                sp->rectA = tabla[x][y]; //A
                sp->rectB = tabla[x+1][y+1];  // D
                sp->indiceA = 4;
                sp->indiceB = 4;
                sp->dist = ofDist(tabla[x][y]->getCenter().x, tabla[x][y]->getCenter().y,
                                  tabla[x+1][y+1]->getCenter().x, tabla[x+1][y+1]->getCenter().y);
                //sp->visible = true;
                sp->diagonal = true;
                springs.push_back(sp);
            }
        }
    }

    //anclamos las miniaturas al visualizador
    /*
     p0 ---------- p1
     |             |
     |     p4      |
     |             |
     p3 -p5-p6-p7- p2
     */
    //reverse de los muelles para

    Spring * anclaP3 = new Spring();
    anclaP3->k = k;
    anclaP3->rectA = thumbs[0];  // D
    anclaP3->rectB = anclaVisualizador;
    anclaP3->indiceA = 4;
    anclaP3->indiceB = 15;
    anclaP3->visible = false;
    anclaP3->dist = 80;
    springs.push_back(anclaP3);




    if(thumbs.size()>1) {
        /// si hay mas de una sigue

        //if(thumbs.size()>1){


        Spring * anclaP5 = new Spring();
        anclaP5->k = k;
        anclaP5->rectA = thumbs[1];  // D
        anclaP5->rectB = anclaVisualizador;
        anclaP5->indiceA = 4;
        anclaP5->indiceB = 14;
        anclaP5->visible = false;
        anclaP5->dist = 80;
        springs.push_back(anclaP5);

        Spring * diago0 = new Spring();
        diago0->k = k;
        diago0->rectA = anclaVisualizador;
        diago0->rectB = thumbs[1];  // D
        diago0->indiceA = 15;
        diago0->indiceB = 4;
        diago0->visible = false;
        diago0->diagonal = true;
        diago0->dist = 100;
        springs.push_back(diago0);

        Spring * diago3 = new Spring();
        diago3->k = k;
        diago3->rectA = anclaVisualizador;
        diago3->rectB = thumbs[1];  // D
        diago3->indiceA = 13;
        diago3->indiceB = 4;
        diago3->visible = false;
        diago3->diagonal = true;
        diago3->dist = 100;
        springs.push_back(diago3);
        //}

        if(thumbs.size()>2) {
            Spring * anclaP6 = new Spring();
            anclaP6->k = k;
            anclaP6->rectA = thumbs[2];  // D
            anclaP6->rectB = anclaVisualizador;
            anclaP6->indiceA = 4;
            anclaP6->indiceB = 13;
            anclaP6->visible = false;
            anclaP6->dist = 80;
            springs.push_back(anclaP6);

            Spring * diago2 = new Spring();
            diago2->k = k;
            diago2->rectA = anclaVisualizador;
            diago2->rectB = thumbs[2];  // D
            diago2->indiceA = 14;
            diago2->indiceB = 4;
            diago2->visible = false;
            diago2->diagonal = true;
            diago2->dist = 100;
            springs.push_back(diago2);

            Spring * diago5 = new Spring();
            diago5->k = k;
            diago5->rectA = anclaVisualizador;
            diago5->rectB = thumbs[2];  // D
            diago5->indiceA = 12;
            diago5->indiceB = 4;
            diago5->visible = false;
            diago5->diagonal = true;
            diago5->dist = 100;
            springs.push_back(diago5);
        }

        if(thumbs.size()>3) {
            Spring * anclaP7 = new Spring();
            anclaP7->k = k;
            anclaP7->rectA = thumbs[3];  // D
            anclaP7->rectB = anclaVisualizador;
            anclaP7->indiceA = 4;
            anclaP7->indiceB = 12;
            anclaP7->visible = false;
            anclaP7->dist = 80;
            springs.push_back(anclaP7);

            Spring * diago4 = new Spring();
            diago4->k = k;
            diago4->rectA = anclaVisualizador;
            diago4->rectB = thumbs[3];  // D
            diago4->indiceA = 13;
            diago4->indiceB = 4;
            diago4->visible = false;
            diago4->diagonal = true;
            diago4->dist = 100;
            springs.push_back(diago4);

            Spring * diago7 = new Spring();
            diago7->k = k;
            diago7->rectA = anclaVisualizador;
            diago7->rectB = thumbs[3];  // D
            diago7->indiceA = 2;
            diago7->indiceB = 4;
            diago7->diagonal = true;
            diago7->visible = false;
            diago7->dist = 100;
            springs.push_back(diago7);
        }



        if(thumbs.size()>4) {
            Spring * diago6 = new Spring();
            diago6->k = k;
            diago6->rectA = anclaVisualizador;
            diago6->rectB = thumbs[4];  // D
            diago6->indiceA = 12;
            diago6->indiceB = 4;
            diago6->visible = false;
            diago6->diagonal = true;
            diago6->dist = 100;

            springs.push_back(diago6);
            //}

            //if(thumbs.size()>4){
            Spring * anclaP2 = new Spring();
            anclaP2->k = k;
            anclaP2->rectA = thumbs[4];  // D
            anclaP2->rectB = anclaVisualizador;
            anclaP2->indiceA = 4;
            anclaP2->indiceB = 2;
            anclaP2->visible = false;
            anclaP2->dist = 80;

            springs.push_back(anclaP2);
        }

        if(thumbs.size()>5) {
            Spring * diago6 = new Spring();
            diago6->k = k;
            diago6->rectA = anclaVisualizador;
            diago6->rectB = thumbs[5];  // D
            diago6->indiceA = 2;
            diago6->indiceB = 4;
            diago6->visible = false;
            diago6->diagonal = true;
            diago6->dist = 100;

            springs.push_back(diago6);
            //}

            //if(thumbs.size()>4){
            Spring * anclaP2 = new Spring();
            anclaP2->k = k;
            anclaP2->rectA = thumbs[5];  // D
            anclaP2->rectB = anclaVisualizador;
            anclaP2->indiceA = 4;
            anclaP2->indiceB = 7;
            anclaP2->visible = false;
            anclaP2->dist = 80;

            springs.push_back(anclaP2);
        }

        if(thumbs.size()>6) {
            Spring * diago6 = new Spring();
            diago6->k = k;
            diago6->rectA = anclaVisualizador;
            diago6->rectB = thumbs[6];  // D
            diago6->indiceA = 7;
            diago6->indiceB = 4;
            diago6->visible = false;
            diago6->diagonal = true;
            diago6->dist = 100;

            springs.push_back(diago6);
            //}

            //if(thumbs.size()>4){
            Spring * anclaP2 = new Spring();
            anclaP2->k = k;
            anclaP2->rectA = thumbs[6];  // D
            anclaP2->rectB = anclaVisualizador;
            anclaP2->indiceA = 4;
            anclaP2->indiceB = 6;
            anclaP2->visible = false;
            anclaP2->dist = 80;

            springs.push_back(anclaP2);
        }



        if(thumbs.size()>7) {
            Spring * diago6 = new Spring();
            diago6->k = k;
            diago6->rectA = anclaVisualizador;
            diago6->rectB = thumbs[7];  // D
            diago6->indiceA = 6;
            diago6->indiceB = 4;
            diago6->visible = false;
            diago6->diagonal = true;
            diago6->dist = 100;

            springs.push_back(diago6);
            //}

            //if(thumbs.size()>4){
            Spring * anclaP2 = new Spring();
            anclaP2->k = k;
            anclaP2->rectA = thumbs[7];  // D
            anclaP2->rectB = anclaVisualizador;
            anclaP2->indiceA = 4;
            anclaP2->indiceB = 5;
            anclaP2->visible = false;
            anclaP2->dist = 80;

            springs.push_back(anclaP2);
        }

        if(thumbs.size()>8) {
            Spring * diago6 = new Spring();
            diago6->k = k;
            diago6->rectA = anclaVisualizador;
            diago6->rectB = thumbs[8];  // D
            diago6->indiceA = 5;
            diago6->indiceB = 4;
            diago6->visible = false;
            diago6->diagonal = true;
            diago6->dist = 100;

            springs.push_back(diago6);
            //}

            //if(thumbs.size()>4){
            Spring * anclaP2 = new Spring();
            anclaP2->k = k;
            anclaP2->rectA = thumbs[8];  // D
            anclaP2->rectB = anclaVisualizador;
            anclaP2->indiceA = 4;
            anclaP2->indiceB = 3;
            anclaP2->visible = false;
            anclaP2->dist = 80;

            springs.push_back(anclaP2);
        }
    }

    Spring * diago1 = new Spring();
    diago1->k = k;
    diago1->rectA = anclaVisualizador;
    diago1->rectB = thumbs[0];  // D
    diago1->indiceA = 14;
    diago1->indiceB = 4;
    diago1->visible = false;
    diago1->diagonal = true;
    diago1->dist = 100;
    springs.push_back(diago1);

    /*

    	Spring * anclaP3 = new Spring();
    	anclaP3->k = k;
    	anclaP3->rectA = thumbs[0];  // D
    	anclaP3->rectB = anclaVisualizador;
    	anclaP3->indiceA = 4;
    	anclaP3->indiceB = 3;
    	anclaP3->visible = false;
    	anclaP3->dist = 80;
        springs.push_back(anclaP3);




        if(thumbs.size()>1){
        /// si hay mas de una sigue

            //if(thumbs.size()>1){


                Spring * anclaP5 = new Spring();
                anclaP5->k = k;
                anclaP5->rectA = thumbs[1];  // D
                anclaP5->rectB = anclaVisualizador;
                anclaP5->indiceA = 4;
                anclaP5->indiceB = 5;
                anclaP5->visible = false;
                anclaP5->dist = 80;
                springs.push_back(anclaP5);

                Spring * diago0 = new Spring();
                diago0->k = k;
                diago0->rectA = anclaVisualizador;
                diago0->rectB = thumbs[1];  // D
                diago0->indiceA = 3;
                diago0->indiceB = 4;
                diago0->visible = false;
                diago0->diagonal = true;
                diago0->dist = 100;
                springs.push_back(diago0);

                Spring * diago3 = new Spring();
                diago3->k = k;
                diago3->rectA = anclaVisualizador;
                diago3->rectB = thumbs[1];  // D
                diago3->indiceA = 6;
                diago3->indiceB = 4;
                diago3->visible = false;
                diago3->diagonal = true;
                diago3->dist = 100;
                springs.push_back(diago3);
            //}

            if(thumbs.size()>2){
                Spring * anclaP6 = new Spring();
                anclaP6->k = k;
                anclaP6->rectA = thumbs[2];  // D
                anclaP6->rectB = anclaVisualizador;
                anclaP6->indiceA = 4;
                anclaP6->indiceB = 6;
                anclaP6->visible = false;
                anclaP6->dist = 80;
                springs.push_back(anclaP6);

                Spring * diago2 = new Spring();
                diago2->k = k;
                diago2->rectA = anclaVisualizador;
                diago2->rectB = thumbs[2];  // D
                diago2->indiceA = 5;
                diago2->indiceB = 4;
                diago2->visible = false;
                diago2->diagonal = true;
                diago2->dist = 100;
                springs.push_back(diago2);

                Spring * diago5 = new Spring();
                diago5->k = k;
                diago5->rectA = anclaVisualizador;
                diago5->rectB = thumbs[2];  // D
                diago5->indiceA = 7;
                diago5->indiceB = 4;
                diago5->visible = false;
                diago5->diagonal = true;
                diago5->dist = 100;
                springs.push_back(diago5);
            }

            if(thumbs.size()>3){
                Spring * anclaP7 = new Spring();
                anclaP7->k = k;
                anclaP7->rectA = thumbs[3];  // D
                anclaP7->rectB = anclaVisualizador;
                anclaP7->indiceA = 4;
                anclaP7->indiceB = 7;
                anclaP7->visible = false;
                anclaP7->dist = 80;
                springs.push_back(anclaP7);

                Spring * diago4 = new Spring();
                diago4->k = k;
                diago4->rectA = anclaVisualizador;
                diago4->rectB = thumbs[3];  // D
                diago4->indiceA = 6;
                diago4->indiceB = 4;
                diago4->visible = false;
                diago4->diagonal = true;
                diago4->dist = 100;
                springs.push_back(diago4);

                Spring * diago7 = new Spring();
                diago7->k = k;
                diago7->rectA = anclaVisualizador;
                diago7->rectB = thumbs[3];  // D
                diago7->indiceA = 2;
                diago7->indiceB = 4;
                diago7->diagonal = true;
                diago7->visible = false;
                diago7->dist = 100;
                springs.push_back(diago7);
            }



            if(thumbs.size()>4){
                Spring * diago6 = new Spring();
                diago6->k = k;
                diago6->rectA = anclaVisualizador;
                diago6->rectB = thumbs[4];  // D
                diago6->indiceA = 7;
                diago6->indiceB = 4;
                diago6->visible = false;
                diago6->diagonal = true;
                diago6->dist = 100;

                springs.push_back(diago6);
            //}

            //if(thumbs.size()>4){
                Spring * anclaP2 = new Spring();
                anclaP2->k = k;
                anclaP2->rectA = thumbs[4];  // D
                anclaP2->rectB = anclaVisualizador;
                anclaP2->indiceA = 4;
                anclaP2->indiceB = 2;
                anclaP2->visible = false;
                anclaP2->dist = 80;

                springs.push_back(anclaP2);
            }


        }

    	Spring * diago1 = new Spring();
    	diago1->k = k;
    	diago1->rectA = anclaVisualizador;
    	diago1->rectB = thumbs[0];  // D
    	diago1->indiceA = 5;
    	diago1->indiceB = 4;
    	diago1->visible = false;
    	diago1->diagonal = true;
    	diago1->dist = 100;
    	springs.push_back(diago1);
        */
    ///
    /// PONGO LA TENSION UNA VEZ COLOCADOS LOS MUELLES

    cambiaKDiagonal(_kMuellesDiagonales);
    cambiaKHorizontal(_kHorizontal);
    cambiaK(_kmuelles);
    cambiaDampMiniaturas(_dampCajasMiniaturas);

    /// marcas la primera como activa
    thumbs[0]->activala();

    // cargas la url de la primera thumb en el visualizador
    switch (lenguaje) {
    case IDIOMA_CAST:
        anclaVisualizador->ponTexto(titular_cast_mini[0], pies_cast_cuerpo_mini[0], txt_cast_mini[0]);
        //anclaVisualizador->ponTexto(pies_cast_titular_mini[0], pies_cast_cuerpo_mini[0], txt_cast_mini[0]);
        break;

    case IDIOMA_GAL:
        anclaVisualizador->ponTexto(titular_gal_mini[0], pies_gal_cuerpo_mini[0], txt_gal_mini[0]);
        //anclaVisualizador->ponTexto(pies_gal_titular_mini[0], pies_gal_cuerpo_mini[0], txt_gal_mini[0]);
        break;

    case IDIOMA_ENG:
        anclaVisualizador->ponTexto(titular_eng_mini[0], pies_eng_cuerpo_mini[0], txt_eng_mini[0]);
        //anclaVisualizador->ponTexto(pies_eng_titular_mini[0], pies_eng_cuerpo_mini[0], txt_eng_mini[0]);
        break;

    case IDIOMA_FR:
        anclaVisualizador->ponTexto(titular_fr_mini[0], pies_fr_cuerpo_mini[0], txt_fr_mini[0]);
        //anclaVisualizador->ponTexto(pies_fr_titular_mini[0], pies_fr_cuerpo_mini[0], txt_fr_mini[0]);
        break;

    default:
        break;
    }
    anclaVisualizador->cargaImagen(urls_mini.at(0));


}
Ejemplo n.º 4
0
bool kUsersApp::analyseUser( ofxOpenNIUser * user ) {
    
    if ( !testUser( user ) )
        return false;
    
    ofMesh & mesh = user->getPointCloud();
    vector< ofVec3f > & vertices = mesh.getVertices();
    
    bb.min.set( 0,0,0 );
    bb.max.set( 0,0,0 );
    bb.center.set( 0,0,0 );
    
    vector< ofVec3f >::iterator itv;  
    for ( itv = vertices.begin(); itv != vertices.end(); itv++ ) {
        ofVec3f & v = (*itv);

        bb.center += v;

        if ( itv == vertices.begin() ) {
            bb.min.set( v );
            bb.max.set( v );
            continue;
        }

        if ( v.x < bb.min.x )
            bb.min.x = v.x;
        if ( v.y < bb.min.y )
            bb.min.y = v.y;
        if ( v.z < bb.min.z )
            bb.min.z = v.z;
        if ( v.x > bb.max.x )
            bb.max.x = v.x;
        if ( v.y > bb.max.y )
            bb.max.y = v.y;
        if ( v.z > bb.max.z )
            bb.max.z = v.z;
    }

    bb.center /= vertices.size();

    if ( ofDist( -rep.pos.x, rep.pos.z, bb.center.x, bb.center.z ) < rep.radius ) {
        
        bb.inside = true;
        
        if ( bb.current != user )
            bb.starttime = ofGetElapsedTimeMillis();

        bb.current = user;
        return true;
        
    }
    
    // resetting bounding box
    bb.current = NULL;
    bb.inside = false;
    bb.starttime = 0;
    bb.size = 0;
    
    return false;
    
}
Ejemplo n.º 5
0
float wlaBullet::getDistanceBetweenShipAndBullet() const
{
	return ofDist(tempStartPosition.x,tempStartPosition.y, position.x, position.y);
}
Ejemplo n.º 6
0
void JTLine::step(){    
    
    x2 += (dest_x2 - x2) * 0.1;
    y2 += (dest_y2 - y2) * 0.1;

    ballPosition = ((ticks % ballSpeed) / (float)ballSpeed);
    

    
    //find sufficient extender length
    float hyp = ofDist(ofGetScreenWidth(),ofGetScreenHeight(),0,0);
    
    //get angles in both directions
    float theta1 = atan2(y-y2,x-x2);
    float theta2 = atan2(y2-y,x2-x);
    
    //define rendering segment
    x3 = x  + cos(theta2) * hyp;
    y3 = y  + sin(theta2) * hyp;
    x4 = x2 + cos(theta1) * hyp;
    y4 = y2 + sin(theta1) * hyp;
    
    //find ball position based on time
    ballX = x3 + (x4-x3) * ballPosition;
    ballY = y3 + (y4-y3) * ballPosition;

    //update math calculations
    slope = (y4 - y3) / (x4 - x3);
    elevation = y4 - slope * x4;
    
    vector<JTLine*>::iterator it;    
    float screenW = ofGetScreenWidth();
    float screenH = ofGetScreenHeight();
    for(it = SceneLines::instance->lines.begin(); it != SceneLines::instance->lines.end() ; it ++ ){
        if( (*it) != this){
            
            if(ballX > 0 && ballX < screenW  && ballY > 0 && ballY < screenH ){
                
                bool side = (*it)->pointAbove(ballX,ballY);
                
                if(sides[*it] == 2 ){
                    if(side){
                        sides[*it] = 3;
                        radius += 20;
                        (*it)->crossed();
                        sound();
                    }
                }else{
                    if(!side){
                        sides[*it] = 2;
                        radius += 20;
                        (*it)->crossed();
                        sound();
                    }
                }
                    
            }else{
                sides[*it] = 2;
            }
            
        }
    }
    
    pluckCounter = max(0,pluckCounter-1);
    
    radius = fmin(fmax(lineWidth, radius-5),50);
    ticks++;
}
Ejemplo n.º 7
0
void Vehicle::follow(Path & p){
    radius = p.radius;
    
    // Predict location 25 (arbitrary choice) frames ahead
    ofVec2f predict(velocity);
    predict.normalize();
    predict *= 25;
    
    predictLoc = location + predict;

   
    worldRecord = 1000000;
    
    // Loop through all points of the path
    for (unsigned int i = 0; i < p.points.size()-1; i++) {
        
        // Look at a line segment
        ofVec2f a(p.points[i]);
        ofVec2f b(p.points[i+1]);
        
        // Get the normal point to that line
        ofVec2f normalPoint = getNormalPoint(predictLoc, a, b);
        
        
        if (normalPoint.x <= a.x || normalPoint.x >= b.x) {
            
            // This is something of a hacky solution, but if it's not within the line segment
            // consider the normal to just be the end of the line segment (point b)
            
            normalPoint.set(b.x, b.y);
        }
        
            
            
            // How far away are we from the path?
        float distance = ofDist(predictLoc.x, predictLoc.y, normalPoint.x, normalPoint.y);
        
            if (distance < worldRecord) {
                worldRecord = distance;
       
                normal = normalPoint;
                
                ofVec2f dir = b - a;
                dir.normalize();
                dir *= 10;  // This could be based on velocity instead of just an arbitrary 10 pixels
                target.set(normalPoint);
                target += dir;
            }
    }

    if (worldRecord > p.radius) {
        seek(target);
    }    
    
    cout << target.x << endl;
   

   
    

}
Ejemplo n.º 8
0
//--------------------------------------------------------------
void shadow::drawBackShadow(ofVec2f posLight, float shadowSpread){

	pos.set(posLight);

	//ofClear(255);
	//ofBackgroundGradient(ofColor(255, 0, 0), ofColor(0, 0, 255), OF_GRADIENT_LINEAR);
	ofEnableAlphaBlending();
	ofSetColor(255, 255, 255);







	
	fbo.begin();
	ofClear(255);
	//ofClear(255);
	ofBackground(255, 255, 255);
	//cam2.begin();
	
	

	for (int i = 0; i < pathsShaderBackS.size();i++) {
	//	for (int j = 0; j < pathsShaderS[i].size();j++) {[j]
			vector<ofPolyline>poly= pathsShaderBackS[i].getOutline();
			ofVec2f pathCenter(0,0);
			for (int k = 0;k < poly.size();k++) {
				pathCenter += poly[k].getCentroid2D();
			}
			pathCenter.x = pathCenter.x / poly.size();
			pathCenter.y = pathCenter.y / poly.size();
			

			float distanceToLight = ofDist(pos.x, pos.y, pathCenter.x, pathCenter.y);
			ofVec2f pushFromOrigin = pos - pathCenter ;
			pushFromOrigin.normalize();
			pushFromOrigin.scale(-1);
			pushFromOrigin.scale(ofMap(distanceToLight, 0, 1400,0 , shadowSpread, true));
			//pushFromOrigin.x = ofMap(distanceToLight, -1.0, 1.0, 100, 0, true);
			//pushFromOrigin.y = ofMap(distanceToLight, -1.0, 1.0, 100, 0, true);

			//ofColor tCol=pathsShader[i][j].getFillColor();[j][j]

			//pathsShaderBackS[i].setColor(ofColor(0, 0, 0));

			ofPushMatrix();
			ofTranslate(pushFromOrigin.x, pushFromOrigin.y, 0);//zPosition[i]
			pathsShaderBackS[i].draw();
			ofPopMatrix();

		//	pathsShaderS[i][j].setColor(tCol);


			
		//}
		
	}
	
	//shader.end();


	//cam2.end();
	fbo.end();

	ofSetColor(255, 255, 255);

	//fbo.begin();
	

	//ofDrawRectangle(0, 0, ofGetWidth(), ofGetHeight());
	//fbo.draw(0, 0);

	//fbo.end();

	blurHShader.begin();
	blurHShader.setUniformTexture("blurSampler", fbo.getTextureReference(0),0);
	blurHShader.setUniform1f("sigma",blurFactor);
	blurHShader.setUniform1f("blurSize", texelSize);
	//blurHShader.setUniform2f("posLight", pos.x, ofMap(pos.y, 0, ofGetHeight(), ofGetHeight(), 0));
	blurHShader.setUniform2f("posLight", pos.x, pos.y);//ofMap(pos.y, 0, ofGetHeight(), ofGetHeight(), 0));//;
	blurHShader.setUniform2f("resolution", ofGetWidth(),ofGetHeight());
	blurVShader.begin();
	blurVShader.setUniformTexture("blurSampler", fbo.getTextureReference(0), 0);
	blurVShader.setUniform1f("sigma", blurFactor);
	blurVShader.setUniform1f("blurSize", texelSize);
	//blurVShader.setUniform2f("posLight", pos.x, ofMap(pos.y, 0, ofGetHeight(), ofGetHeight(), 0));//;pos.y
	blurHShader.setUniform2f("posLight", pos.x, pos.y);
	blurVShader.setUniform2f("resolution", ofGetWidth(), ofGetHeight());
	ofDrawRectangle(0, 0, ofGetWidth(), ofGetHeight());

	fbo.draw(0, 0);
	blurVShader.end();
	blurHShader.end();







	/*
	cam2.begin();
	for (int i = 0; i < pathsShader.size();i++) {
		ofPushMatrix();
		ofTranslate(0, 0, zPosition[i]);//
		for (int j = 0; j < pathsShader[i].size();j++) {
			pathsShader[i][j].draw();
		}
		ofPopMatrix();
	}
	cam2.end();
	*/
//	

	//


	gui.draw();
}
Ejemplo n.º 9
0
//--------------------------------------------------------------
void testApp::update() {
    //move blue
    for(int i = 0; i < NUMBER_OF_BLUE; i++) {
        blues[i].move();
    }
    for(int i = 0; i < NUMBER_OF_RED; i++) {
        reds[i].move();
    }
    for(int i = 0; i < NUMBER_OF_GREEN; i++) {
        greens[i].move();
    }

    //check for blue intersections with circles and do transactions
    for(int i = 0; i<NUMBER_OF_BLUE; i++) {
        for(int j = 0; j<NUMBER_OF_CIRCLES; j++) {
            float distance = ofDist(circles[j].position.x, circles[j].position.y, blues[i].position.x, blues[i].position.y);

            if(distance < circles[j].size && blues[i].lastTransfer != j) {
                if(blues[i].full == true && circles[j].color.b < 255) {
                    circles[j].addBlue();
                    blues[i].full = false;
                    blues[i].lastTransfer = j;
                } else if(blues[i].full == false && circles[j].color.b > 0) {
                    circles[j].removeBlue();
                    blues[i].full = true;
                    blues[i].lastTransfer = j;
                }
            }
        }
    }

    for(int i = 0; i<NUMBER_OF_RED; i++) {
        for(int j = 0; j<NUMBER_OF_CIRCLES; j++) {
            float distance = ofDist(circles[j].position.x, circles[j].position.y, reds[i].position.x, reds[i].position.y);

            if(distance < circles[j].size && reds[i].lastTransfer != j) {
                if(reds[i].full == true && circles[j].color.r < 255) {
                    circles[j].addRed();
                    reds[i].full = false;
                    reds[i].lastTransfer = j;
                } else if(reds[i].full == false && circles[j].color.r > 0) {
                    circles[j].removeRed();
                    reds[i].full = true;
                    reds[i].lastTransfer = j;
                }
            }
        }
    }

    for(int i = 0; i<NUMBER_OF_GREEN; i++) {
        for(int j = 0; j<NUMBER_OF_CIRCLES; j++) {
            float distance = ofDist(circles[j].position.x, circles[j].position.y, greens[i].position.x, greens[i].position.y);

            if(distance < circles[j].size && greens[i].lastTransfer != j) {
                if(greens[i].full == true && circles[j].color.g < 255) {
                    circles[j].addGreen();
                    greens[i].full = false;
                    greens[i].lastTransfer = j;
                } else if(greens[i].full == false && circles[j].color.g > 0) {
                    circles[j].removeGreen();
                    greens[i].full = true;
                    greens[i].lastTransfer = j;
                }
            }
        }
    }
}
Ejemplo n.º 10
0
void ofApp::polygons(){
    
    if (camActive) {
        myCam.begin();

        ofPushMatrix();
        ofTranslate(-ofGetWidth()/2, -ofGetHeight()/2);


    }

  
///////////////////////////////////////////////////////////////////////////////////
    


    // if drawing the lines the polygon is open
    if(open){
        ableClick=true;        // if the polygone it's open activate the click function
        for(int k=0;k<curveVertices.size();k++){
            distance= ofDist(curveVertices[k].x, curveVertices[k].y, curveVertices[0].x, curveVertices[0].y);
            
            if(k>=0){
                ofSetColor(selectedColor[0]);
                ofSetLineWidth(3);
                ofNoFill();
                ofBeginShape();
                //shape
                for (int i = 0; i < curveVertices.size(); i++){
                    ofVertex(curveVertices[i].x, curveVertices[i].y);
                }
                ofEndShape(false);
                //handle circle
                for (int i = 0; i < curveVertices.size(); i++){
                    if (curveVertices[i].bOver == true) ofFill();
                    else ofNoFill();
                    ofCircle(curveVertices[i].x, curveVertices[i].y,4);
                }
            }
            
            

            //checking the distance mousePos and first point
            if (   mouseX - curveVertices[0].x<=handlerRadius*5
                && mouseY - curveVertices[0].y<=handlerRadius*5
                && curveVertices[0].x - mouseX<=handlerRadius*5
                && curveVertices[0].y - mouseY<=handlerRadius*5
                ) {
                ofSetColor(0);
                string mouseMessage;
                
                //CLOSE MESSAGE
//                mouseMessage = "close the pattern";
//                if (curveVertices.size()>1) {
//                    ofDrawBitmapString(mouseMessage, mouseX-mouseMessage.length()*10,mouseY+10);
//                    
//                }

                // handle blink
                for (int i=1; i<ofGetFrameNum()%40; i++) {
                    ofNoFill();
                    ofSetColor(selectedColor[0],200/i+10);
                    ofSetLineWidth(5/i);
                    ofCircle(curveVertices[0].x,curveVertices[0].y,(i*(i+1)/100));
                
                        }
                    }
      
                }
//
    }
        if (distance>0 && distance<=handlerRadius*2) {
    
//        ofSetColor(selectedColor[0]);
//        ofDrawBitmapString("Press C to make " + curvedVal + " shape", 30,ofGetHeight()/2);
        
            //handles
            for (int i = 0; i < curveVertices.size(); i++){
                if (curveVertices[i].bOver == true) ofFill();
                else ofNoFill();
                ofCircle(curveVertices[i].x, curveVertices[i].y,5);
            }

        ////////THIS IS THE OLD BEGIN SHAPE

        ofBeginShape();
        for(int i=0;i<curveVertices.size();i++){

            ofSetColor(selectedColor[0]);
            ofFill();
          
            //curved shape
            if (curved) {
                
                if (i == 0){
                    ofCurveVertex(curveVertices[0].x, curveVertices[0].y); // we need to duplicate 0 for the curve to start at point 0
                    ofCurveVertex(curveVertices[0].x, curveVertices[0].y); // we need to duplicate 0 for the curve to start at point 0
                } else if (i == curveVertices.size()-1){
                    ofCurveVertex(curveVertices[i].x, curveVertices[i].y);
                    ofCurveVertex(curveVertices[0].x, curveVertices[0].y);	// to draw a curve from pt 6 to pt 0
                    ofCurveVertex(curveVertices[0].x, curveVertices[0].y);	// we duplicate the first point twice
                } else {
                    ofCurveVertex(curveVertices[i].x, curveVertices[i].y);
                }
                


            }else{
                
            //straight shape
            ofVertex(curveVertices[i].x,curveVertices[i].y);
            curved=false;
            }

        }
            
        ofEndShape();
            open=false;
//            ableClick=false;        // if the polygone it's closed deactivate the click function

            
            if (camActive) {
                
//                myCam.setTarget(ofVec3f(ofGetWidth(),ofGetHeight()));

                ofPopMatrix();
                
                myCam.end();


            }
            
            
        ///END/////
        
        
    }


}
Ejemplo n.º 11
0
void PointFitter::removePointsFarFromAverage()
{
    //check the points very far(error) from average.
    int startPoint = 0;

    vector <int> bigErrorPoints;

    for (int i = 0; i < nDivisionsHeight; i++)
    {
        for (int j = 0; j < nDivisionsWidth; j++)
        {

            // make average point.
            ofPoint tempAverage;

            tempAverage.x = 0;
            tempAverage.y = 0;

            for (int k = 0; k < nPtsInPoints[j+i*nDivisionsWidth]; k++)
            {
                tempAverage.x += eyePoints[k + startPoint].x;
                tempAverage.y += eyePoints[k + startPoint].y;
            }

            tempAverage /= nPtsInPoints[j+i*nDivisionsWidth];

            // make average distance from average point
            float distAverage = 0;

            for (int k = 0; k < nPtsInPoints[j+i*nDivisionsWidth]; k++)
            {
                distAverage += ofDist(eyePoints[k + startPoint].x, eyePoints[k + startPoint].y, tempAverage.x, tempAverage.y);
            }

            distAverage /= nPtsInPoints[j+i*nDivisionsWidth];

            // check distance, check if the error is big.
            int nErrors = 0;

            for (int k = 0; k < nPtsInPoints[j+i*nDivisionsWidth]; k++)
            {
                if (distAverage * 1.7 < ofDist(eyePoints[k + startPoint].x, eyePoints[k + startPoint].y, tempAverage.x, tempAverage.y))
                {
                    int temp = k + startPoint;
                    bigErrorPoints.push_back(temp);
                    nErrors++;
                }
            }
            startPoint += nPtsInPoints[j+i*nDivisionsWidth];
            nPtsInPoints[j+i*nDivisionsWidth] -= nErrors;
        }
    }

    // remove error Points.
    for (int i = 0; i < bigErrorPoints.size(); i++)
    {
        //!!!: temp
        eyePoints.erase(eyePoints.begin() + bigErrorPoints[i] - i);
        screenPoints.erase(screenPoints.begin() + bigErrorPoints[i] - i);
    }
    startPoint = 0;
}
Ejemplo n.º 12
0
//--------------------------------------------------------------
void ofApp::keyPressed(int key){
    
    ///screen false/true
    
    if(key=='a'){
        ofColor transpaColor(colorPicked.r,colorPicked.g,colorPicked.b,ofRandom(20,150));
        selectedColor.clear();
        selectedColor.push_back(transpaColor);
        
        ofSetBackgroundAuto(false);
        
            }
    
    //easycam
    
    if(key=='z'){
        camActive=true;
        randomZ=ofRandom(-1000,1000);
        
    }else{
    
        camActive=false;
    }

    
    
    
    
//    ///close path with spacebar
//    if(key==' '){
//        if(ofFill){
//            ofNoFill();
//        }else{
//            ofFill;
//        }
//    }
    
    
    ///DELETE LAST POINT
    
    if(key=='b' && curveVertices.size()>0){
        open=true;
        curveVertices.pop_back();
        myPoints.pop_back();
        ableClick=true;
        saveXml(); //saving Xml file

    }
    
    //DELETE ALL
    
    if(key==OF_KEY_BACKSPACE){
        
        curveVertices.clear();
        myPoints.clear();
        distance=0;

        open=true;
        ableClick=true;
        saveXml(); //saving Xml file

    }
  
    ///MAKE IT CURVE
    
    if(key=='c' && curveVertices.size()>0){
        if (curved) {
            curved=false;
            curvedVal= "Curved";


        } else {
            curved=true;
            curvedVal= "Straight";


        }
            
        saveXml(); //saving Xml file
    }
    
    ///FULLSCREEN
    
    if(key=='f'){
        ofToggleFullscreen();  // set fullscreen
    }
        
     ///TEST RANDOM
    
    if(key=='k'){
        
        
        
        if (curved) {
//            ofBackground(15);
            ofColor randomColor(ofRandom(255), ofRandom(255),ofRandom(255),curveVertices.size()*10);
            selectedColor.clear();
            selectedColor.push_back(randomColor);

            
            for (int i = 0; i < curveVertices.size(); i++){
                
                curveVertices[i].x=ofRandom(ofGetWidth());
                curveVertices[i].y=ofRandom(ofGetHeight());
            
            }
            
        } else {
            ofColor randomColor(ofRandom(255), ofRandom(255),ofRandom(255),curveVertices.size()*10);
            selectedColor.clear();
            selectedColor.push_back(randomColor);

//            ofSetBackgroundAuto(false);
            for (int i = 0; i < curveVertices.size(); i++){
                ofPoint position(curveVertices[i].x,curveVertices[i].y);
                ofPoint centre(ofGetWidth()/2,ofGetHeight()/2);
                
                float dist = ofDist(position.x,position.y , centre.x,centre.y);
                
                
                
                
                if (stage.inside(curveVertices[i].x,curveVertices[i].y)) {
   
                    directionX=ofMap(mouseX, 0, ofGetWidth(), -100, 100);
                    directionY=ofMap(mouseY, 0, ofGetHeight(), -100, 100);

                    
                    curveVertices[i].x+=ofRandom(directionX);
                    curveVertices[i].y+=ofRandom(directionY);
                   
            }
        
        else {
            curveVertices[i].x=ofGetWidth() -  curveVertices[i].x;
            curveVertices[i].y=ofGetHeight() -  curveVertices[i].y;
            curveVertices[i].x+=ofRandom(directionX);
            curveVertices[i].y+=ofRandom(directionY);
            
            

          }
       }
    }
        
        saveXml(); //saving Xml file
        
        
    }
    

    
}
Ejemplo n.º 13
0
//--------------------------------------------------------------
void ofApp::setup(){
    
    sender.setup(HOST, PORT);
    stage.set(0, 0, ofGetWidth(), ofGetHeight());

    
    ofSetFullscreen(true);  // set fullscreen
    
    open=true;              // set the polygon true at the beginning
    running=true;
    ableClick=true;
//    ofSetBackgroundAuto(false);
    ofBackground(15);      //background white
    handlerRadius = 5;     // radius of the handler of the polygon
    
    
    ///////////COLOR PICKER////////
    //setting up the color picker
    
    float w = ofGetWidth()/6;
    float h = ofGetHeight()/6;
    float cx = w/2;
    float cy = h/2;
    
  
    img.allocate(w,h,OF_IMAGE_COLOR);
    
    for (float y=0; y<h; y++) {
        for (float x=0; x<w; x++) {
            
            float angle = atan2(y-cy,x-cy)+PI;
            float dist = ofDist(x,y,cx,cy);
            float hue = angle/TWO_PI*255;
            float sat = ofMap(dist,0,w/4,0,255,true);
            float bri = ofMap(dist,w/4,w/2,255,0,true);
            
            img.setColor(x,y,ofColor::fromHsb(hue,sat,bri));
            
        }
    }
    
    img.reloadTexture();
    
    ofPoint mousePos(mouseX,mouseY);
    
    
    colorPickerRect.set((ofGetWidth()-ofGetWidth()/6),(ofGetHeight()-ofGetHeight()/6), ofGetWidth(), ofGetHeight());
    


    
//////////////////////////////
    
    curvedVal= "Curved";
    
    
    ////////////////// fbo color picker /////////////////
    
//        pickerFbo.allocate(w, h,GL_RGB);
//    
//        pickerFbo.begin();
//        ofClear(255,255,255);
//        pickerFbo.end();
    
    
    ofSetRectMode(OF_RECTMODE_CORNER);
//    img.draw(ofGetWidth()-ofGetWidth()/6,ofGetHeight()-ofGetHeight()/6);
    
    if (colorPickerRect.inside(mouseX, mouseY)) {
        
        ofPopMatrix();
        ofSetRectMode(OF_RECTMODE_CENTER);
        ofSetColor(255,255,255,200);
        ofRect(mouseX+10, mouseY, 30, 30);
        
        
        colorPicked.set(img.getColor(mouseX-(ofGetWidth()-ofGetWidth()/6), mouseY-(ofGetHeight()-ofGetHeight()/6)));
//        colorPicked.set(colorPicked.r,colorPicked.g,colorPicked.b,curveVertices.size()*10);
        ofSetColor(colorPicked);
        
        ofRect(mouseX+10, mouseY, 20, 20);
        ofFill();
        ofSetColor(255);
        ofPushMatrix();
        
        ofDrawBitmapString(ofToString( colorPicked), 50,500);
    }

    ////////////////// end fbo color picker /////////////////

    
    //temp coordinates
    for (int i = 0; i < curveVertices.size(); i++){
        
        xt = curveVertices[i].x;
        yt = curveVertices[i].y;
        
        
    }
    
    
    ///////////////// maximilian//////////////
    
    /* some standard setup stuff*/
    
    ofEnableAlphaBlending();
    ofSetupScreen();
    ofBackground(0, 0, 0);
    ofSetVerticalSync(true);
    
    /* This is stuff you always need.*/
    
    sampleRate 			= 44100; /* Sampling Rate */
    initialBufferSize	= 512;	/* Buffer Size. you have to fill this buffer with sound*/
    
    
    /* Now you can put anything you would normally put in maximilian's 'setup' method in here. */
    
    
    beat.load(ofToDataPath("beat2.wav"));
    beat.getLength();
    
    
    ofSoundStreamSetup(2,0,this, sampleRate, initialBufferSize, 4);/* Call this last ! */
 

    randomZ=0;

}
Ejemplo n.º 14
0
//--------------------------------------------------------------
void testApp::update(){
    
    simpleHands = leap.getSimpleHands();
    leap.updateGestures();  // check for gesture updates
    
    for(int i = 0; i < simpleHands.size(); i++){
        //simpleHands[i].debugDraw();
        
        tempX = ofMap (simpleHands[i].handPos.x, -120.0, 120.0, 0, ofGetWindowWidth());
        
        tempY = ofMap (simpleHands[i].handPos.y, 400, 100, 0, ofGetWindowHeight());
    }

	//IMPORTANT! - tell ofxLeapMotion that the frame is no longer new. 
	leap.markFrameAsOld();
    
    //start sequencer update
    
    oscReceiver();
    
    //sequencer update
    prevRotation = rotation;
    rotation += inc;
    hue += 1;
    
    if (rotation > 360) rotation = 0;
    if (rotation < 0) rotation = 360-rotation;
    if (hue > 255) hue = 0;
    
    
    ofPoint diff ;          //Difference between particle and mouse
    float dist ;            //distance from particle to mouse ( as the crow flies )
    float ratio ;           //Ratio of how strong the effect is = 1 + (-dist/maxDistance) ;
    const ofPoint mousePosition = ofPoint( tempX , tempY ) ; //Allocate and retrieve mouse values once.
    
    
    //Create an iterator to cycle through the vector
    std::vector<Particle>::iterator p ;
    for ( p = particles.begin() ; p != particles.end() ; p++ )
    {
        ratio = 1.0f ;
        p->velocity *= friction ;
        //reset acceleration every frame
        p->acceleration = ofPoint() ;
        diff = mousePosition - p->position ;
        dist = ofDist( 0 , 0 , diff.x , diff.y ) ;
        //If within the zone of interaction
        if ( dist < forceRadius )
        {
            ratio = -1 + dist / forceRadius ;
            //Repulsion
            if ( cursorMode == 0 )
                p->acceleration -= ( diff * ratio) ;
            //Attraction
            else
                p->acceleration += ( diff * ratio ) ;
        }
        if ( springEnabled )
        {
            //Move back to the original position
            p->acceleration.x += springFactor * (p->spawnPoint.x - p->position.x);
            p->acceleration.y += springFactor * (p->spawnPoint.y - p->position.y) ;
        }
        
        p->velocity += p->acceleration * ratio ;
        p->position += p->velocity ;
        
        p->defineAngleNote();
        
    }
}
Ejemplo n.º 15
0
void medical::draw()
{
//	ofSetColor(0, 0, 255);
//	verdana.drawString("Framerate: " + ofToString(ofGetFrameRate()), 20, 50);
	ofDrawBitmapString(buf, 20, 50);
//	kinect.drawDepth(10, 10, 400, 300);
//	kinect.draw(420, 10, 400, 300);

	int x;
	int y;
	
	if (gestureFinder.blobs.size() == 1)
	{
//		ofSetColor(0, 0, 255);
		ofFill();
		ofxCvBlob &blob = gestureFinder.blobs[0];
		x = blob.centroid.x;
		y = blob.centroid.y;
		if (!isActivated)
			hoverWidget(x, y);
		else
		{
			if (HW_FIRST_LEG == DIRECTION_UP && HW_SECOND_LEG == DIRECTION_RIGHT)
			{
				X_STATE = x;
				Y_STATE = y;
				sender.send_stack(x, y, ZOOM, STACK);
				ofSetColor(255, 0, 255);
			}
			if (HW_FIRST_LEG == DIRECTION_DOWN && HW_SECOND_LEG == DIRECTION_LEFT)
			{
				sender.send_pen(sender.PEN_UNDO, x, y, 1, 1);
				ofSetColor(0, 255, 0);
			}
			if (HW_FIRST_LEG == DIRECTION_LEFT && HW_SECOND_LEG == DIRECTION_DOWN)
			{
				if (HW_CURRENT_DIRECTION != -1)
				{
					HW_FIRST_Y = y;
					HW_CURRENT_DIRECTION = -1;
				}
				int distance = y - HW_FIRST_Y;
//				cout << "Raw distance: " << distance << endl;
				distance = distance / 10;
//				cout << "Divided Distance: " << distance << endl;
				int speed = 0;
				if (distance < -4)
				{
//					cout << "Scroll speed -2" << endl;
					speed = -4;
				}
				else if (distance < -2)
				{
//					cout << "Scroll speed -1" << endl;
					speed = -1;
				}
				else if (distance > 4)
				{
//					cout << "Scroll speed 2" << endl;
					speed = 4;
				}
				else if (distance > 2)
				{
//					cout << "Scroll speed 1" << endl;
					speed = 1;
				}
				else
				{
//					cout << "Scroll speed 0" << endl;
					speed = 0;
				}
				STACK += speed;
				if (STACK >= 25)
					STACK = 25;
				else if (STACK <= 0)
					STACK = 0;
				cout << "STACK: " << STACK << endl;
				sender.send_stack(X_STATE, Y_STATE, ZOOM, STACK);
			}
		}
		ofCircle(x, y, 10);
	}
	else if (gestureFinder.blobs.size() == 2)
	{
		float euclidean;
		ofxCvBlob &first = gestureFinder.blobs[0];
		ofxCvBlob &second = gestureFinder.blobs[1];
		int x1 = first.centroid.x;
		int y1 = first.centroid.y;
		int x2 = second.centroid.x;
		int y2 = second.centroid.y;
		ofCircle(x1, y1, 10);
		ofCircle(x2, y2, 10);
		euclidean = ofDist(x1, y1, x2, y2);
//		cout << "Distance (Raw): " << euclidean << endl;
		float zoom = ofMap(euclidean, 0, 800, 0, 1);
//		cout << "Zoom (Mapped: " << zoom << endl;
		ZOOM = zoom;
		sender.send_stack(X_STATE, Y_STATE, ZOOM, STACK);
	}
	else if (isActivated)
	{
		isActivated = false;
		HW_FIRST_LEG = -1;
		HW_SECOND_LEG = -1;
		HW_CURRENT_DIRECTION = -1;
	}
	else
	{
		HW_FIRST_LEG = -1;
		HW_SECOND_LEG = -1;
		HW_CURRENT_DIRECTION = -1;
		HW_FIRST_Y = -1;
		HW_FIRST_X = -1;
	}
	switch (imageDisplayNumber)
	{
		case 1:
			image1.draw(10, 320, 400, 300);
			break;
		case 2:
			image2.draw(10, 320, 400, 300);
			break;
		default:
			break;
	}
	ofNoFill();
	ofSetColor(255, 255, 255);
	gestureImage.draw(700, 20, 400, 300);
	gestureFinder.draw(700, 20, 400, 300);
}
Ejemplo n.º 16
0
void View::Draw(const Model &model) const {
  ofPushMatrix();
  SetupViewpoint();
  ofBackground(ofColor::white);
  //CHASERS-------------------
  for (int i = 0; i < model.nChasers; i++){
    model.topChaser[i]->draw();
    model.botChaser[i]->draw();
    model.rightChaser[i]->draw();
    model.leftChaser[i]->draw();
  }
  DrawGravity(model);
  DrawPlayers(model);
  
  ofColor ball_color = model.last_hit_player == 1 ? color_p1 :
      model.last_hit_player == 2 ? color_p2 : ofColor::white;
  DrawBallTrail(model, model.ball_trail, ball_color);
  DrawStrikeIndicator(model);
  DrawBall(model.ball, ball_color);
  
  for (float x=-10; x<GRID_W; x+=(1.0/6.0)) {
    for (float y=-5; y<GRID_H; y+=(1.0/6.0)) {
      if (ofDist(model.ball->GetPosition().x, model.ball->GetPosition().y, x, y)<0.3) {
        if (ball_color==color_p1){
          ofSetColor(color_p1.r,ofRandom(10,60),color_p1.b, 100);
        }else if(ball_color==color_p2){
          ofSetColor(ofRandom(10,60),color_p2.g,color_p2.b, 100);
        }else{
          ofSetColor(ofRandom(200,250),ofRandom(200,250),ofRandom(200,250), 200);
        }
        ofCircle(x, y, 0.1);
      }
      else if (ofDist(model.player1_top->GetPosition().x, model.player1_top->GetPosition().y, x, y)<0.4 ||
               ofDist(model.player1_bottom->GetPosition().x, model.player1_bottom->GetPosition().y, x, y)<0.4) {
        ofSetColor(color_p1.r,ofRandom(10,60),color_p1.b, 155);
        ofCircle(x, y, 0.12);
      }
      else if (ofDist(model.player2_top->GetPosition().x, model.player2_top->GetPosition().y, x, y)<0.4 ||
               ofDist(model.player2_bottom->GetPosition().x, model.player2_bottom->GetPosition().y, x, y)<0.4) {
        ofSetColor(ofRandom(10,60),color_p2.g,color_p2.b, 155);
        ofCircle(x, y, 0.12);
      }
      else if (ofDist(model.ball->GetPosition().x, model.ball->GetPosition().y, x, y)< model.p1glowMax){
        ofNoFill();
        ofSetColor(color_p1.r,ofRandom(10,60),color_p1.b, 135);
        ofCircle(x, y, 0.12);
        ofFill();
      }
      else if (ofDist(model.ball->GetPosition().x, model.ball->GetPosition().y, x, y)< model.p2glowMax){
        ofNoFill();
        ofSetColor(ofRandom(10,60),color_p2.g,color_p2.b, 135);
        ofCircle(x, y, 0.12);
        ofFill();
      }
      
      
      else {
        ofFill();
        ofSetColor(ofRandom(0,10),ofRandom(0,10),ofRandom(10,20), 20);
        ofTriangle(x, y+0.7, x-0.6, y-0.6, x+0.6, y-0.6);

      }

    }



    
  }
  DrawCourt(model);
  DrawScore(model);
  if (model.show_winning_state) {
    DrawTriangles(model);
  }
  ofPopMatrix();

  //DrawFramesPerSecond(model);
}
Ejemplo n.º 17
0
//------------------------------------------------------------
void Foe::update(){
    if (! *paused){
        bool frozen=false;
        if (freezeTimer>0 && freezeTimer%2==0)  frozen=true;
        if (route.size()>2 && !frozen){
            
            //reset the particle
            p.resetForce();
            
            //atract the controler to the next node
            float atraction=moveAtraction;
            p.addAttractionForce(moveParticle, p.pos.distance(moveParticle.pos)*1.5, atraction);
            
            moveAtraction+=moveAtractionIncrease;
            
            //get force from the vector field.
            ofVec2f frc;
            frc = VF->getForceFromPos(p.pos.x, p.pos.y);
            //stealth gets almost no resistance from walls
            if (type=="stealth")    frc*=0.3;
            p.addForce(frc.x, frc.y);
            
            //dampen and update the particle
            p.addDampingForce();
            p.update();
        }
        
        //see if we're ready to go to the next node
        if (p.pos.distance(moveParticle.pos)<nextNodeRad){
            setNextNode();
        }
        
        //if we're at the end, bolt off screen
        if (ofDist(p.pos.x,p.pos.y,goalX*fieldScale,goalY*fieldScale)<15){
            //reachedTheEnd=true;
            endBolt=true;
            //set the move particle just off screen
            
            //check which gate this foe is using
            if (goalX>goalY)
                moveParticle.pos.x+=10;
            else
                moveParticle.pos.y+=10;
        }
        
        //reduce freezeTimer. if it is above 0 the foe is frozen
        freezeTimer--;
    }
    
    //moving the foe off screen if it has reached the end
    if (endBolt){
        //reset the particle
        p.resetForce();
        
        //atract the controler to the next node
        float atraction=moveAtraction*5;
        p.addAttractionForce(moveParticle, p.pos.distance(moveParticle.pos)*1.5, atraction);
        
        moveAtraction+=moveAtractionIncrease;
        
        //dampen and update the particle
        p.addDampingForce();
        p.update();
        
        //if we've reach the move particle, the foe is done
        if ( (goalX>goalY && p.pos.x>moveParticle.pos.x) || 
             (goalY>goalX && p.pos.y>moveParticle.pos.y) ) {
            reachedTheEnd=true;
        }

    }
    
    //test if the foes is dead
    if (hp<=0)  dead=true;
    
}
Ejemplo n.º 18
0
void CloudsIntroSequence::updateQuestions(){

	for(int i = 0; i < startQuestions.size(); i++){
		CloudsPortal& curQuestion = startQuestions[i];
		curQuestion.scale = questionScale;
		curQuestion.update();
		
		if(curQuestion.hoverPosition.z < warpCamera.getPosition().z){
			curQuestion.hoverPosition.z += questionWrapDistance;
		}
		
		float slowDownFactor = 0.0;
		//hold the questions
		if(questionChannels[ curQuestion.tunnelQuadrantIndex ]){
			//let it go with time
			slowDownFactor = powf(ofMap(ofGetElapsedTimef(),
											  channelPauseTime[curQuestion.tunnelQuadrantIndex] + questionPauseDuration,
											  channelPauseTime[curQuestion.tunnelQuadrantIndex] + questionPauseDuration+2, 1.0, 0.0, true), 2.0);
			if(slowDownFactor == 0.0){
				questionChannels[ curQuestion.tunnelQuadrantIndex ] = false;
			}
			
		}
		else{
			float distanceFromCamera = (curQuestion.hoverPosition.z - warpCamera.getPosition().z);
			//if it's in front of the stop range
			if(distanceFromCamera > questionZStopRange.min){
				slowDownFactor = powf(ofMap(distanceFromCamera, questionZStopRange.min, questionZStopRange.max, 1.0, 0.0, true), 2.0);
//				curQuestion.hoverPosition.z += slowDownFactor * cameraForwardSpeed;
				if(slowDownFactor > .9){
					//pause this node and all the ones behind it
                    if(!firstQuestionStopped){
                        firstQuestionStoppedTime = ofGetElapsedTimef();
                        firstQuestionStopped = true;
                    }
					questionChannels[curQuestion.tunnelQuadrantIndex] = true;
					channelPauseTime[curQuestion.tunnelQuadrantIndex] = ofGetElapsedTimef();
				}
			}
		}
		
		if(&curQuestion == caughtQuestion){
			slowDownFactor = 1.0;
		}
		
		curQuestion.hoverPosition.z += cameraForwardSpeed * slowDownFactor;

		if(curQuestion.hoverPosition.z - warpCamera.getPosition().z < questionZStopRange.max || &curQuestion == caughtQuestion){
#ifdef OCULUS_RIFT
            ofVec3f screenPos = getOculusRift().worldToScreen(curQuestion.hoverPosition, true);
			ofRectangle viewport = getOculusRift().getOculusViewport();
            float distanceToQuestion = ofDist(screenPos.x, screenPos.y,viewport.getCenter().x, viewport.getCenter().y);
#else
            ofVec2f mouseNode = cursor;
			float distanceToQuestion = startQuestions[i].screenPosition.distance(mouseNode);
#endif
			if(selectedQuestion == NULL && caughtQuestion == NULL){
				if( distanceToQuestion < questionTugDistance.max ){
					if(distanceToQuestion < questionTugDistance.min){
						caughtQuestion = &curQuestion;
						if (caughtQuestion->startHovering()) {
							getClick()->setPosition(0);
							getClick()->play();
                        }
					}
				}
			}
			
			//we have a caught question make sure it's still close
			else if(caughtQuestion == &curQuestion){

				if( caughtQuestion->isSelected() && !bQuestionDebug && selectedQuestion == NULL){
					getSelectLow()->setPosition(0);
					getSelectLow()->play();

					selectedQuestion = caughtQuestion;
					selectedQuestionTime = ofGetElapsedTimef();
					selectQuestionStartPos = warpCamera.getPosition();
					selectQuestionStartRot = warpCamera.getOrientationQuat();

					CloudsPortalEventArgs args( GetTranslationForString( ofToUpper(selectedQuestion->question) ) );
					ofNotifyEvent(events.portalHoverBegan, args);
					
				}
				else if(distanceToQuestion > questionTugDistance.max && selectedQuestion == NULL){
					caughtQuestion->stopHovering();
					caughtQuestion = NULL;
                    if(firstQuestionStopped){
                        firstQuestionStoppedTime = ofGetElapsedTimef();
                    }
				}
			}
		}
	}
    
    if (caughtQuestion != NULL) {
        // move the sticky cursor towards the caught question
        stickyCursor.interpolate(caughtQuestion->screenPosition - ofVec2f(bleed,bleed)*.5, 0.2f);
    }
    else {
        stickyCursor.interpolate(cursor, 0.5f);
    }
}
Ejemplo n.º 19
0
void Agent::update( )
{
    float dist = ofDist ( position.x , position.y , target.x , target.y ) ;
    if ( dist < targetBufferDist )
    {
        if ( bFirstTarget == false ) 
            bFirstTarget = true ; 
        
        //bTarget = true ;
       // if ( agent.bTarget == true && points.size() > 1 ) 
       // {
        targetIndex+= 1 ; 
        //cout << "target index is now : " << targetIndex << endl ; 
        //cout << " x : " << target.x << " , " << target.y << " , " << target.z << endl ; 
        if ( targetIndex >= ( followRibbon.points.size() - 1 ) ) 
        {
            targetIndex = 0 ; 
        }
          
        if ( followRibbon.points.size() > 0 ) 
        {
            target = followRibbon.points [ targetIndex ] ;
        }
        
         
        //    agent.bTarget = false ; 
        //}

    }
    
    if ( bFirstTarget == true ) 
        trailRibbon.addPoint( ofVec3f( position ) ) ;
    
    //  float dist = mousePoint.distance( agents[a]->target ) ; // ofDist( mousePoint.x , mousePoint.y , agents[a]->target.x , 
    followRibbon.update() ; // = (*ribbons[a] ) ; 
    trailRibbon.update() ;

/*
    if ( ofGetFrameNum() % pathSampling == 0 )
    {
        curIndex++ ;
        ColorPoint cp ;


        if ( curIndex == colorInterpolateNum )
        {
            curIndex = 0 ;
            color = nextColor ;
            nextColor = colorPool.getRandomColor() ;
        }

        float ratio = (float)curIndex / (float)colorInterpolateNum ;
        ofColor lerp = color.lerp( nextColor , ratio ) ;
        cp.color = lerp ;
        cp.color.a = ofRandom( 255.0f * .7 , 255.0f * 1.0f ) ;
        cp.position = position ;
        cp.radius =  ofRandom ( 0.25 , 4 ) ; //4 + sin( ofGetElapsedTimef() ) * 1 ;
        curPath.addPoint( cp ) ; //.push_back( cp ) ;
    }
 */
    force.limit(maxForce);
    velocity += force;

    velocity.limit(maxVelocity);
    position += velocity;

    seek( target ) ;
}
Ejemplo n.º 20
0
//--------------------------------------------------------------
void ofApp::draw(){
    
    // Sets the background to a circular gradient
    ofColor colorOne;
    ofColor colorTwo;
    
    colorOne.set (182, 73, 38);
    colorTwo.set (142, 40, 0);
    
    ofBackgroundGradient(colorOne, colorTwo, OF_GRADIENT_CIRCULAR);
    
    
//    ofBackground(0x2A2C2B);	//Set up the background

//	//Draw background rect for spectrum
//	ofSetColor( 230, 230, 230 );
//	ofFill();
//	ofRect( 10, 700, N * 6, -100 );
//
//	//Draw spectrum
//	ofSetColor( 0, 0, 0 );
//	for (int i=0; i<N; i++) {
//		//Draw bandRad and bandVel by black color,
//		//and other by gray color
//		if ( i == bandRad || i == bandVel ) {
//			ofSetColor( 0, 0, 0 ); //Black color
//		}
//		else {
//			ofSetColor( 128, 128, 128 ); //Gray color
//		}
//		ofRect( 10 + i * 5, 700, 3, -spectrum[i] * 100 );
//	}

	//Draw cloud

	//Move center of coordinate system to the screen center
	ofPushMatrix();
	ofTranslate( ofGetWidth() / 2, ofGetHeight() / 2 );

	//Draw points
	ofSetColor(70, 137, 102);
	ofFill();
	for (int i=0; i<n; i++) {
		ofCircle( p[i], 10 );
	}

	//Draw lines between near points
    ofSetColor(255, 240, 165);
	float dist = 30;	//Threshold parameter of distance
	for (int j=3; j<n; j++) {
		for (int k=j+1; k<n; k++) {
			if ( ofDist( p[j].x, p[j].y, p[k].x, p[k].y )
				< dist ) {
					ofLine( p[j], p[k] );
			}
		}
	}

	//Restore coordinate system
	ofPopMatrix();
}
Ejemplo n.º 21
0
//--------------------------------------------------------------
void testApp::mousePressed(int x, int y, int button){
	float d = ofDist(loc.x, loc.y, x, y);
	if(d < radius) {
		dragging = true;
	}
}
Ejemplo n.º 22
0
//--------------------------------------------------------------
void ofApp::update(){
    contourFinder.setMinAreaRadius(minRadius);
    contourFinder.setMaxAreaRadius(maxRadius);
    contourFinder.setMinArea(minArea);
    contourFinder.setMaxArea(maxArea);
    contourFinder.setThreshold(mThreshold);
    
    //ビデオのサイズ調整
    setVideoSize();
    
    if(MOVIE_DEBUG_MODE){
        movie.update();
        if(movie.isFrameNew()){
            ofxCv::blur(movie,10);
            contourFinder.findContours(movie);
        }
    }else {
        cam.update();
        if(cam.isFrameNew()){
            ofxCv::blur(cam,10);
            contourFinder.findContours(cam);
        }
    }
    
    //当たり判定
    if(showLabels){
        //接しているか判定
        float objRads[contourFinder.size()];
        float objPosX[contourFinder.size()];
        float objPosY[contourFinder.size()];
        
        for(int i = 0;i<contourFinder.size();i++){
            cv::Rect targetRect = contourFinder.getBoundingRect(i);
            float targetW = targetRect.width;
            float targetH = targetRect.height;
            float targetF = max(targetW,targetH);
            objRads[i] = targetF;
            objPosX[i] = contourFinder.getCenter(i).x;
            objPosY[i] = contourFinder.getCenter(i).y;
        }
        
        for(int i = 0;i < contourFinder.size();i++){
            for (int n = i+1; n<contourFinder.size(); n++) {
                if(objRads[n]){
                    float distance = ofDist(objPosX[i], objPosY[i], objPosX[n], objPosY[n]);
                    if(objRads[i] + objRads[n] + collisionDist > distance){
                        std::cout << "Collision!!" << endl;
                        std::cout << distance << endl;
                        
                        
                        //OSCメッセージの準備
                        ofxOscMessage m;
                        //OSCアドレスの指定
                        m.setAddress( "/collision/flag" );
                        m.addIntArg(0);
                        //メッセージを送信
                        sender.sendMessage( m );
                        
                    }
                }
            }
        }
            
    }
}
Ejemplo n.º 23
0
//--------------------------------------------------------------
void testApp::update(){
    
    if (!titleScreen && !displayMsg1 && !displayMsg2 && !displayMsg3) {
        
        // If the player goes offscreen, reset to the default position:
        /*if (player.xPos < -player.wide || player.xPos > ofGetWidth()+player.wide) {
            player.xPos = xPosPlayerDefault;
            player.yPos = player.onGround;
        }*/
        
        if (booYaCounter > 0) booYaCounter -= 1/framerate;
        if (dontPlayMeMsgCounter > 0) dontPlayMeMsgCounter -= 1/framerate;
        else dontPlayMeMsg = false;
        if (demo) {
            secondCounter ++;
            if (secondCounter >= framerate) {
                demoCounter--;
                secondCounter = 0;
            }
            if (demoCounter <= 0) demo = false;
        }
        
        if (slow) framerate = frameRateSlow;
        else framerate = framerateNormal;
        ofSetFrameRate(framerate);
        
        if (moveL) originX += moveSpeed; // Translate to the right on LEFT.
        if (moveR) originX -= moveSpeed; // Translate to the left on RIGHT.
        
        // Restore the player to default position where appropriate:
        if (player.yPos == player.onGround && !player.vanish && !player.kickAss){
            if (player.xPos > xPosPlayerDefault) player.xPos--;
            if (player.xPos < xPosPlayerDefault) player.xPos++;
        }
        
        moveR = true;
        // Advance the screen automatically when the player's in the default pos:
        if ((player.xPos != xPosPlayerDefault && player.yPos != player.onGround && !collided) || player.vanish || player.kickAss) moveR = false;
        else if (collided && player.xPos < xPosPlayerDefault/2) moveR = false;
        // ...unless the player attacks:
        //else moveR = false;
        
        // Advance the enemy generation counter once per second:
        if (enemyRateCounter < enemyRate) enemyRateCounter += 1/framerateNormal;
        
        // Generate enemies automatically at the pace we set in setup():
        if (enemyRateCounter >= enemyRate && enemies.size() < maxEnemies) {
            enemy_grunt enemy;
            // Position them just offscreen to the right, taking into account the changing position of the origin:
            enemy.setup(ofGetWidth()+fabs(originX)+100, groundY);
            enemies.push_back(enemy);
            enemyRateCounter = 0;
        }
        
        // Update everyone:
        for (int i = 0; i<enemies.size(); i++) enemies[i].update(originX);
        player.update(framerate);
        
        // Detect a collision between the player and an enemy:
        collided = false; // Set this to false by default, overwritten by collision:
        for (int i=0; i<enemies.size(); i++) {
            
            float enemyDistance = ofDist(player.xPos, player.yPos, enemies[i].xPos+originX, enemies[i].yPos);
            
            float attackDistance = (player.wide/2+enemies[i].rad)*4;
            
            float defeatDistance = player.wide/2+enemies[i].rad;
            
            if (enemyDistance < attackDistance && player.xPos < ofGetWidth()) {
                if (!player.vanish && !player.kickAss) storeI = i; // Record the value of the enemy in question.
                collided = true; // This cues jumping, vanishing, then kicking ass.
                if (enemyDistance < defeatDistance) {
                    enemies[i].pwned = true; // The enemy is defeated.
                    enemiesDefeated++;
                    player.kickAss = false;
                    // Occasionally play a message of condolence:
                    if (rollForBooYa && ofRandom(1) <= 0.6) {
                        booYaMsg = true;
                        booYaCounter = booYaCounterLimit;
                        rollForBooYa = false;
                    }
                    else rollForBooYa = false;
                }
            }
            else player.jump = false;
        }
        rollForBooYa = true;
        if (booYaCounter <= 0) booYaMsg = false;
        
        // Trigger effects on collision:
        if (collided && !player.kickAss) {
            player.jump = true;
            player.tall = 25;
            
            // Randomly activate slow motion:
            if (rollForSlow && ofRandom(1) < 0.2) {
                slow = true;
                rollForSlow = false;
            }
            else rollForSlow = false;
        }
        else { // Restore default values:
            rollForSlow = true;
            slow = false;
            player.tall = 50;
        }
        
        // Randomly comment on the vanishing act:
        if (player.vanish) {
            if (rollForNinja && ofRandom(1) < 0.5) {
                ninjaMsg = true;
                rollForNinja = false;
            }
            else rollForNinja = false;
        }
        else { // Restore default values:
            rollForNinja = true;
            ninjaMsg = false;
        }
        
        // The player reappears at a randomized point:
        if (player.changeX) {
            player.xPos += ofRandom(-xPosPlayerDefault, xPosPlayerDefault);
            player.yPos += ofRandom(-player.yPos, player.onGround-player.yPos-10);
            player.changeX = false;
        }
        
        // We use Xeno's Paradox to "animate" the player's movement toward the enemy's position to make an attack:
        if (player.kickAss) {
            if (player.xPos >= enemies[storeI].xPos+originX) {
                player.xPos -= xeno * ofDist(player.xPos, player.yPos, enemies[storeI].xPos+originX, player.yPos);
            }
            else {
                player.xPos += xeno * ofDist(player.xPos, player.yPos, enemies[storeI].xPos+originX, player.yPos);
            }
            player.yPos += xeno * ofDist(player.xPos, player.yPos, player.xPos, enemies[storeI].yPos);
        }
        
        // Update coordinates for writing messages:
        mouthX = player.xPos-player.wide/2-10;
        mouthY = player.yPos-player.tall/2-10;
        msgX = player.xPos-110;
        msgY = ofGetHeight()/2+10;
        textX = player.xPos-140;
        textY = ofGetHeight()/2;
        
        // Following up the boolean function we created above, this oF function sorts the vector according to the values of the booleans and then removes any with a 'true' value:
        ofRemove(enemies,bShouldIErase);
        
        // If the player defeats all the enemies, cue the win screen, then restart the game:
        if (enemiesDefeated >= totalToWin) youWonCounter += 1/framerate;
        if (youWonCounter >= youWonCounterLimit) {
            // Clear out the vector:
            for (int i=0; i<enemies.size(); i++) enemies.erase(enemies.begin(), enemies.end());
            setup();
        }
        
    }
    
}
Ejemplo n.º 24
0
//--------------------------------------------------------------
void testApp::draw(){
	
	
	ofSetColor(ofColor::lightGreen);
	
	ofPushMatrix();
	ofScale(ofGetWidth()/640, ofGetHeight()/480);
	// draw debug (ie., image, depth, skeleton)
	// openNIDevice.drawDebug();
	
	// use a blend mode so we can see 'through' the mask(s)
	ofEnableBlendMode(OF_BLENDMODE_ALPHA);
	
	// get number of current users
	int numUsers = openNIDevice.getNumTrackedUsers();
	
	// iterate through users
	for (int i = 0; i < numUsers; i++){
		
		// get a reference to this user
		ofxOpenNIUser & user = openNIDevice.getTrackedUser(i);
		
		rightHand = user.getJoint(JOINT_RIGHT_HAND).getProjectivePosition();
		
		leftHand = user.getJoint(JOINT_LEFT_HAND).getProjectivePosition();
		
		// for body
		head = user.getJoint(JOINT_HEAD).getProjectivePosition();
		rightShoulder = user.getJoint(JOINT_RIGHT_SHOULDER).getProjectivePosition();
		leftShoulder = user.getJoint(JOINT_LEFT_SHOULDER).getProjectivePosition();
		rightElbow = user.getJoint(JOINT_RIGHT_ELBOW).getProjectivePosition();
		leftElbow = user.getJoint(JOINT_LEFT_ELBOW).getProjectivePosition();
		torsoJoint = user.getJoint(JOINT_TORSO).getProjectivePosition();
		rightHip = user.getJoint(JOINT_RIGHT_HIP).getProjectivePosition();
		leftHip = user.getJoint(JOINT_LEFT_HIP).getProjectivePosition();
		rightKnee = user.getJoint(JOINT_RIGHT_KNEE).getProjectivePosition();
		leftKnee = user.getJoint(JOINT_LEFT_KNEE).getProjectivePosition();
		rightFoot = user.getJoint(JOINT_RIGHT_FOOT).getProjectivePosition();
		leftFoot = user.getJoint(JOINT_LEFT_FOOT).getProjectivePosition();
		
				
		vel_right = rightHand - prev_rightHand;
		vel_left = leftHand - prev_leftHand;
		
		//		if (vel.length() > 50 && rightHand.z < prev_rightHand.z) {
		//			isThrowing = true;
		//
		//		}else if (vel.length() < 10) {
		//			isThrowing = false;
		//		}
		
		// draw bg
		bg.draw(-200, 0);
	
		
		// draw the silhouette
		

		if(gameStatus == 0, 1, 2) 

			//draw head
			ofCircle(head.x, head.y, 60);
			
			//draw shoulders
			//ofBeginShape();
			int shoulderLength =  ofDist(rightShoulder.x, rightShoulder.y, leftShoulder.x, leftShoulder.y);
			int shoulder_width = shoulderLength/10;
			//ofVertex(rightShoulder.x, (rightShoulder.y - shoulder_width));
//			ofVertex(rightShoulder.x, (rightShoulder.y + shoulder_width));
//			ofVertex(leftShoulder.x, (leftShoulder.y + shoulder_width));
//			ofVertex(leftShoulder.x, (leftShoulder.y - shoulder_width));
//			ofEndShape();
		
//			int shoulderLength =  ofDist(rightShoulder.x, rightShoulder.y, leftShoulder.x, leftShoulder.y);
//			ofRect(rightShoulder.x, rightShoulder.y, -(shoulderLength), (shoulderLength/3));
		
		

		

		
			//draw upper right arm
			ofBeginShape();
			int upperArmLength =  ofDist(rightShoulder.x, rightShoulder.y, rightElbow.x, rightElbow.y);
			int upperArm_width = upperArmLength/8;
			ofVertex((rightShoulder.x + upperArm_width), rightShoulder.y);
			ofVertex((rightShoulder.x + upperArm_width)-10, rightShoulder.y-10);
			ofVertex((rightShoulder.x + upperArm_width)-20, rightShoulder.y-20);
			ofVertex((rightShoulder.x - upperArm_width), rightShoulder.y);
			ofVertex((rightElbow.x - upperArm_width), rightElbow.y);
			ofVertex((rightElbow.x + upperArm_width), rightElbow.y);
			ofEndShape();
		
			//draw upper left arm
			ofBeginShape();
			ofVertex((leftShoulder.x - upperArm_width), leftShoulder.y);
			ofVertex((leftShoulder.x - upperArm_width)+20, leftShoulder.y-20);
			ofVertex((leftShoulder.x - upperArm_width)+10, leftShoulder.y-10);
			ofVertex((leftShoulder.x + upperArm_width), leftShoulder.y);
			ofVertex((leftElbow.x + upperArm_width), leftElbow.y);
			ofVertex((leftElbow.x - upperArm_width), leftElbow.y);
			ofEndShape();
		
			//draw lower right arm
			ofBeginShape();
			int lowerArmLength =  ofDist(rightElbow.x, rightElbow.y, rightHand.x, rightHand.y);
			int lowerArm_width = lowerArmLength/9;
			ofVertex((rightElbow.x + lowerArm_width), rightElbow.y);
			ofVertex((rightElbow.x - lowerArm_width), rightElbow.y);
			ofVertex((rightHand.x - lowerArm_width), rightHand.y);
			ofVertex((rightHand.x + lowerArm_width), rightHand.y);
			ofEndShape();
		
			//draw lower left arm
			ofBeginShape();
			ofVertex((leftElbow.x + lowerArm_width), leftElbow.y);
			ofVertex((leftElbow.x - lowerArm_width), leftElbow.y);
			ofVertex((leftHand.x - lowerArm_width), leftHand.y);
			ofVertex((leftHand.x + lowerArm_width), leftHand.y);
			ofEndShape();
		
			//draw hands
			ofCircle(rightHand.x, rightHand.y, 15);
			ofCircle(leftHand.x, leftHand.y, 15);
		
			//draw torso
			ofBeginShape();
			//shoulders
			ofVertex(rightShoulder.x, rightShoulder.y);
			ofVertex(rightShoulder.x, rightShoulder.y-10);
			ofVertex(rightShoulder.x-10, rightShoulder.y-20);
			
			ofVertex(leftShoulder.x+10, leftShoulder.y-20);	
			ofVertex(leftShoulder.x, leftShoulder.y-10);
			ofVertex(leftShoulder.x, leftShoulder.y);	
		
			ofVertex(leftShoulder.x, leftHip.y);
			ofVertex(leftShoulder.x+20, leftHip.y+40);
			//ofVertex(torsoJoint.x, rightHip.y+35);
			ofVertex(rightShoulder.x-20, rightHip.y+40);	
			ofVertex(rightShoulder.x, rightHip.y);
			
			ofEndShape();
		
			//draw upper right leg
			ofBeginShape();
			int upperLegLength =  ofDist(rightHip.x, rightHip.y, rightKnee.x, rightKnee.y);
			int upperLeg_width = upperLegLength/10;
			ofVertex((rightHip.x + upperLeg_width), rightHip.y);
			ofVertex((rightHip.x - upperLeg_width), rightHip.y);
			ofVertex((rightKnee.x - upperLeg_width), rightKnee.y);
			ofVertex((rightKnee.x + upperLeg_width), rightKnee.y);
			ofEndShape();
		
			//draw upper left leg
			ofBeginShape();
			ofVertex((leftHip.x + upperLeg_width), leftHip.y);
			ofVertex((leftHip.x - upperLeg_width), leftHip.y);
			ofVertex((leftKnee.x - upperLeg_width), leftKnee.y);
			ofVertex((leftKnee.x + upperLeg_width), leftKnee.y);
			ofEndShape();
		
			//draw lower right leg
			ofBeginShape();
			int lowerLegLength =  ofDist(rightKnee.x, rightKnee.y, rightFoot.x, rightFoot.y);
			int lowerLeg_width = lowerLegLength/8;
			ofVertex((rightKnee.x + lowerLeg_width), rightKnee.y);
			ofVertex((rightKnee.x - lowerLeg_width), rightKnee.y);
			ofVertex((rightFoot.x - lowerLeg_width), rightFoot.y);
			ofVertex((rightFoot.x + lowerLeg_width), rightFoot.y);
			ofEndShape();
		
			//draw lower left leg
			ofBeginShape();
			ofVertex((leftKnee.x + lowerLeg_width), leftKnee.y);
			ofVertex((leftKnee.x - lowerLeg_width), leftKnee.y);
			ofVertex((leftFoot.x - lowerLeg_width), leftFoot.y);
			ofVertex((leftFoot.x + lowerLeg_width), leftFoot.y);
			ofEndShape();
		
			//user.drawSkeleton(); //only if we're NOT playing, draw the silhouette... maybe you want it like this?
			
		if (vel_left.length() > vel_right.length()) {
			vel = vel_left;
			hand = leftHand;
			prevHand = prev_leftHand;
		} else {
			vel = vel_right;
			hand = rightHand;
			prevHand = prev_rightHand;
		}
		
		if (gameStatus == 1){ //only check the ball, and then draw ball stuff if we're playing!
			
			myBall.update(hand, prevHand, vel);
			
			if ((target.x - 40) < myBall.pos.x && myBall.pos.x < (target.x + 40) &&
				(target.y - 40) < myBall.pos.y && myBall.pos.y < target.y + 40) {
				
				hasHit = true;
				now = ofGetElapsedTimef();
				lastTarget.x = target.x;
				lastTarget.y = target.y;
				//cout << "wtf" << endl;
                
			}
			
            
			ofNoFill();
			ofSetColor(ofColor::white);		
			ofSetLineWidth(5);
			ofCircle(target.x, target.y, 50);
			
			ofFill();
			
			drawSplat();
			
			for (int i = 0; i < splatList.size(); i++ ) {
				splatList[i].draw();
			}
			
			prev_rightHand = rightHand;
			prev_leftHand = leftHand;
		}
	}
    
    if (gameStatus == 0){
        // this is your start screen !
        
        score = 0; //reset the score?
		bg.draw(-200, 0);
		
        ofSetColor(255);
		//start button
		ofSetColor(ofColor::red);
		ofStyle(smooth);
		ofCircle(WIDTH/1.5, HEIGHT/2, 75);
		// (ballX >= ofGetWidth() || ballX <= 0 )
		
		ofSetColor(ofColor::black);
		verdana.loadFont(ofToDataPath("verdana.ttf"), 30);
		string msgB = "Start";
		verdana.drawString(msgB, (WIDTH/1.5)-50, (HEIGHT/2)+10);
		
		// use code for start button
		int distFromStartCircle = ofDist(WIDTH/1.5, HEIGHT/2, hand.x, hand.y);
		
		if (distFromStartCircle < 75) {
			gameStatus = 1; // set play screen
			score = 0; //reset score
			//reset timer
		}
		
		
		
		ofSetColor(ofColor::white);
			verdana.loadFont(ofToDataPath("verdana.ttf"), 96);
			string msg = "Food Fight!";
			verdana.drawString(msg, WIDTH/16, 100);
        
    }
	
	else if (gameStatus == 1){
		
		myBall.draw(hand);	
		
		ofDisableBlendMode();
		ofPopMatrix();
		
		// draw some info regarding frame counts etc
		//	ofSetColor(0, 255, 0);
		//string msg = " MILLIS: " + ofToString(ofGetElapsedTimeMillis()) + " FPS: " + ofToString(ofGetFrameRate()) + " Device FPS: " + ofToString(openNIDevice.getFrameRate());
		//    
		//	verdana.drawString(msg, 20, openNIDevice.getNumDevices() * 480 - 20);
		
		//cout << vel.length() << endl;
		//draw svg file
		//svg.draw();
		
		
		ofSetColor(255);
		long currTime = ofGetElapsedTimeMillis();
		//int min = 60000;
		
		//if (currTime <= 15000) {
//			verdana.loadFont(ofToDataPath("verdana.ttf"), 75);
//			string msg = "Food Fight!";
//			verdana.drawString(msg, WIDTH/3, 100);
//		}
		
		verdana.loadFont(ofToDataPath("verdana.ttf"), 50);
		string msgC = "Score: "+ofToString(score);
		verdana.drawString(msgC, WIDTH/.9, 150);
		string msgT = "Time(sec): "+ofToString((ofGetElapsedTimeMillis()/1000));
		verdana.drawString(msgT, WIDTH/8, 150);
		
		
	} else if (gameStatus == 2) {
		
		//	ofRect(	//draw rect over background
		
		// draw bg
		bg.draw(-200, 0);
		
		//restart button
		ofSetColor(ofColor::green);
		ofCircle(WIDTH/3, HEIGHT/2, 75);
		// (ballX >= ofGetWidth() || ballX <= 0 )
		
		ofSetColor(ofColor::black);
		verdana.loadFont(ofToDataPath("verdana.ttf"), 20);
		string msgR = "Restart";
		verdana.drawString(msgR, ((WIDTH/3)-55), (HEIGHT/2)+10);
		
		// use code for restart button
		int distFromRestartCircle = ofDist(WIDTH/3, HEIGHT/2, hand.x, hand.y);
		
		if (distFromRestartCircle < 75) {
			gameStatus = 0; // set start screen
			score = 0; //reset score
			//reset timer
		}
		
		//quit button
		ofSetColor(ofColor::red);
		ofCircle(WIDTH/.99, HEIGHT/2, 75);
		
		ofSetColor(ofColor::black);
		verdana.loadFont(ofToDataPath("verdana.ttf"), 20);
		string msgQ = "Quit";
		verdana.drawString(msgQ, ((WIDTH/.99)-35), (HEIGHT/2)+10);
		
		//quit button
		int distFromQuitCircle = ofDist(WIDTH/.99, HEIGHT/2, hand.x, hand.y);
		
		if (distFromQuitCircle < 75) {
			//gameStatus = 1; //set play screen
            score = 0; //reset the score?
			bg.draw(-200, 0);
			
			ofSetColor(ofColor::red);
			verdana.loadFont(ofToDataPath("verdana.ttf"), 80);
			string msgG = "Game Over!";
			verdana.drawString(msgG, (WIDTH/8), HEIGHT/2);
			
		}
		
		ofSetColor(ofColor::aquamarine);
		verdana.loadFont(ofToDataPath("verdana.ttf"), 50);
		string msgF = "Final Score:"+ofToString(score);
		verdana.drawString(msgF, (WIDTH/3)-25, 100);	//final score
		//draw game over screen with final score
	}
}
Ejemplo n.º 25
0
//--------------------------------------------------------------
void testApp::mousePressed(int x, int y, int button){
    float d = ofDist(x, y, topX, topY);
    if(d < topRadius) {
        dragging = true;
    }
}
Ejemplo n.º 26
0
//--------------------------------------------------------------
void testApp::update(){
    updateDataPoints();
    
    
#ifdef TARGET_OSX // only working on Mac at the moment
	hardware.update();
#endif
    
	if (isLive) {
        
		// update all nodes
		recordContext.update();
		recordDepth.update();
		recordImage.update();
        
		// demo getting depth pixels directly from depth gen
		depthRangeMask.setFromPixels(recordDepth.getDepthPixels(nearThreshold, farThreshold),
									 recordDepth.getWidth(), recordDepth.getHeight(), OF_IMAGE_GRAYSCALE);
        
		// update tracking/recording nodes
		if (isTracking) recordUser.update();
		if (isRecording) oniRecorder.update();
        
		// demo getting pixels from user gen
		if (isTracking && isMasking) {
			allUserMasks.setFromPixels(recordUser.getUserPixels(), recordUser.getWidth(), recordUser.getHeight(), OF_IMAGE_GRAYSCALE);
			user1Mask.setFromPixels(recordUser.getUserPixels(1), recordUser.getWidth(), recordUser.getHeight(), OF_IMAGE_GRAYSCALE);
			user2Mask.setFromPixels(recordUser.getUserPixels(2), recordUser.getWidth(), recordUser.getHeight(), OF_IMAGE_GRAYSCALE);
		}
        
	} else {
        
		// update all nodes
		playContext.update();
		playDepth.update();
		playImage.update();
        
		// demo getting depth pixels directly from depth gen
		depthRangeMask.setFromPixels(playDepth.getDepthPixels(nearThreshold, farThreshold),
									 playDepth.getWidth(), playDepth.getHeight(), OF_IMAGE_GRAYSCALE);
        
		// update tracking/recording nodes
		if (isTracking) playUser.update();
        
		// demo getting pixels from user gen
		if (isTracking && isMasking) {
			allUserMasks.setFromPixels(playUser.getUserPixels(), playUser.getWidth(), playUser.getHeight(), OF_IMAGE_GRAYSCALE);
			user1Mask.setFromPixels(playUser.getUserPixels(1), playUser.getWidth(), playUser.getHeight(), OF_IMAGE_GRAYSCALE);
			user2Mask.setFromPixels(playUser.getUserPixels(2), playUser.getWidth(), playUser.getHeight(), OF_IMAGE_GRAYSCALE);
		}
	}
    
    
    if (recordUser.getNumberOfTrackedUsers() > 0) {
        // we have a tracked user! yay!
        ofxTrackedUser * tracked = recordUser.getTrackedUser(1);
        // all i'm doing here is setting the points in this array to parts of the skeleton that the kinect finds. if you start to type in tracked-> then it should autofill with the other body parts you can use. i've included z in here in case we do want to try to do depth
        parts[0].pos.set(tracked->left_lower_arm.position[1].X, tracked->left_lower_arm.position[1].Y, tracked->left_lower_arm.position[1].Z);
        parts[0].pos *= 1.6;
        
        parts[1].pos.set(tracked->right_lower_arm.position[1].X, tracked->right_lower_arm.position[1].Y, tracked->right_lower_arm.position[1].Z);
        parts[1].pos *= 1.6;
        
        parts[2].pos.set(tracked->left_lower_leg.position[1].X, tracked->left_lower_leg.position[1].Y, tracked->left_lower_leg.position[1].Z);
        parts[2].pos *= 1.6;
        
        parts[3].pos.set(tracked->right_lower_leg.position[1].X, tracked->right_lower_leg.position[1].Y, tracked->right_lower_leg.position[1].Z);
        parts[3].pos *= 1.6;
    }
    
//    // draw lines
//    ofSetColor(0);
//    ofFill();
//    
//    ofLine(centerPoint, rootLeg.pos);
//    ofLine(centerPoint, otherLeg.pos);
//    
//    ofLine(centerPoint, leftShoulder);
//    ofLine(centerPoint, rightShoulder);
//    
//    // draw root circle
//    ofCircle(rootLeg.pos, 30);
//    
//    // draw other leg circle
//    ofCircle(otherLeg.pos, 30);
//    
//    // draw smaller shoulder circles
//    ofCircle(leftShoulder, 10);
//    ofCircle(rightShoulder, 10);
//    
//    // draw hands
//    ofCircle(leftHand.pos, 30);
//    ofCircle(rightHand.pos, 30);
    
    
    partIsOverRootLeg = false;
    for (int i = 0; i < 4; i++) {
        if (ofDist(rootPoint.x, rootPoint.y, parts[i].pos.x, parts[i].pos.y) < 70) {
            partIsOverRootLeg = true;
        } 
    }
    
    partIsOverOtherLeg = false;
    for (int i = 0; i < 4; i++) {
        if (ofDist(otherLegPoint.x, otherLegPoint.y, parts[i].pos.x, parts[i].pos.y) < 70) {
            partIsOverOtherLeg = true;
        } 
    }
    
    partIsOverLeftHand = false;
    for (int i = 0; i < 4; i++) {
        if (ofDist(leftHandPoint.x, leftHandPoint.y, parts[i].pos.x, parts[i].pos.y) < 70) {
            partIsOverLeftHand = true;
        }
    }
    
    partIsOverRightHand = false;
    for (int i = 0; i < 4; i++) {
        if (ofDist(rightHandPoint.x, rightHandPoint.y, parts[i].pos.x, parts[i].pos.y) < 70) {
            partIsOverRightHand = true;
        } 
    }
    
}
Ejemplo n.º 27
0
//--------------------------------------------------------------
void ballPond::update(){
    
    kinect.update();
	
    
	grayImage.setFromPixels(kinect.getDepthPixels(), kinect.width, kinect.height);
	
	grayThreshFar = grayImage;
	grayThresh = grayImage;
	grayThresh.threshold(nearThreshold, true);
	grayThreshFar.threshold(farThreshold);
	cvAnd(grayThresh.getCvImage(), grayThreshFar.getCvImage(), grayImage.getCvImage(), NULL);
	
	//update the cv image
	grayImage.flagImageChanged();
    
	contourFinder.findContours(grayImage, minBlobSize, (kinect.width*kinect.height)/2, 3, true);
	
    
	vector <ofPoint> temp;
  
	if (contourFinder.blobs.size() > 0) 
	{
		//Contour Analysis
		for (int i = 0; i < contourFinder.blobs.size(); i++) 
        {
			
			v_arr.push_back(temp);
			ofPoint p;
			//ofxBox2dLine lineStrip;
			//lineStripBlob.push_back(lineStrip);
			lineStripBlob[i].setWorld(box2d.getWorld());
			lineStripBlob[i].clear();
			//lineStripBlob.clear();
			
            if(bReversePoints) {
				contourAnalysis.simplify(contourFinder.blobs[i].pts, simpleContour, simpleAmount); //BIG MEMORY ALLOCATION LEAK *SOLVED*
               
				blobPts.push_back(simpleContour.size()-1);
                for (int j = 0; j < blobPts[i]; j++) 
                {
					v_arr[i].push_back(0);
				}
				
				for(int j = blobPts[i]; j >= 0; j--) 
                {
                    //for (int j=0; j<blobPts[i]; j++) {
					v_arr[i].push_back(0);
					v_arr[i][j].x = simpleContour[j].x;
					v_arr[i][j].y = simpleContour[j].y;
					p.x = v_arr[i][j].x;
					p.y = v_arr[i][j].y;
					lineStripBlob[i].addPoint(ofMap(p.x, 0, 640, 0, resX, false), ofMap(p.y, 0, 480, 0, resY, false));
				}
			}
			// good to go :)
			lineStripBlob[i].createShape();
		}
		
		//Blobs Center/Width/Distance
		blob1.x = contourFinder.blobs[0].centroid.x;
		blob1.y = contourFinder.blobs[0].centroid.y;
		blob1Size.x = contourFinder.blobs[0].boundingRect.width;
		blob1Size.y = contourFinder.blobs[0].boundingRect.height;
		
		if (contourFinder.blobs.size() == 2){
			blob2.x = contourFinder.blobs[1].centroid.x;
			blob2.y = contourFinder.blobs[1].centroid.y;
			blob2Size.x = contourFinder.blobs[1].boundingRect.width;
			blob2Size.y = contourFinder.blobs[1].boundingRect.height;
			
			if (blob1.x < blob2.x) {
				distBlob = ofDist((blob1.x + blob1Size.x/2),0,(blob2.x - blob2Size.x/2),0);
			}else {
				distBlob = ofDist((blob1.x - blob1Size.x/2),0,(blob2.x + blob2Size.x/2),0);
			}
		}else {
			bDistBlob = true;
		}
        
	}
    
	if (contourFinder.nBlobs < clearLineStrip) 
    {
		//cout << "nblobs: " << contourFinder.nBlobs << " clearLineStrip: " << clearLineStrip << endl;
		for (int i = contourFinder.nBlobs; i < clearLineStrip; i++) 
        {
			lineStripBlob[i].clear();
			//cout << "lineStripBlob[" << i << "].clear()" << endl;
		}
	}
	
	clearLineStrip = contourFinder.nBlobs;
	//cout << " clearLineStrip: " << clearLineStrip <<  " = nblobs: " << contourFinder.nBlobs <<   " = blobs.size(): " << contourFinder.blobs.size() << endl;
	
	//Box2d
	box2d.update();
	
	//if particles are outside the window set new position
	for( int i = 0; i < particles.size(); i++ )
	{
		particles[i].update();
	}
	
	//Sound
	ofSoundUpdate();
	//ContactHandler
}
Ejemplo n.º 28
0
void ofApp::ofRectGradient(int px, int py, int w, int h,const ofColor& start, const ofColor& end, ofGradientMode mode){
    ofVboMesh gradientMesh;
    gradientMesh.clear();
    gradientMesh.setMode(OF_PRIMITIVE_TRIANGLE_FAN);
#ifndef TARGET_EMSCRIPTEN
#ifdef TARGET_OPENGLES
    if(ofIsGLProgrammableRenderer()) gradientMesh.setUsage(GL_STREAM_DRAW);
#else
    gradientMesh.setUsage(GL_STREAM_DRAW);
#endif
#endif
    if(mode == OF_GRADIENT_CIRCULAR) {
        // this could be optimized by building a single mesh once, then copying
        // it and just adding the colors whenever the function is called.
        ofVec2f center(w / 2 + px, h / 2 + py);
        gradientMesh.addVertex(center);
        gradientMesh.addColor(start);
        int n = 32; // circular gradient resolution
        float angleBisector = TWO_PI / (n * 2);
        float smallRadius = ofDist(0, 0, w / 2, h / 2);
        float bigRadius = smallRadius / cos(angleBisector);
        for(int i = 0; i <= n; i++) {
            float theta = i * TWO_PI / n;
            gradientMesh.addVertex(center + ofVec2f(sin(theta), cos(theta)) * bigRadius);
            gradientMesh.addColor(end);
        }
    } else if(mode == OF_GRADIENT_LINEAR) {
        gradientMesh.addVertex(ofVec2f(px, py));
        gradientMesh.addVertex(ofVec2f(px+w, py));
        gradientMesh.addVertex(ofVec2f(px+w, py+h));
        gradientMesh.addVertex(ofVec2f(px, py+h));
        gradientMesh.addColor(start);
        gradientMesh.addColor(start);
        gradientMesh.addColor(end);
        gradientMesh.addColor(end);
    } else if(mode == OF_GRADIENT_BAR) {
        gradientMesh.addVertex(ofVec2f(px+w / 2, py+h / 2));
        gradientMesh.addVertex(ofVec2f(px, py+h / 2));
        gradientMesh.addVertex(ofVec2f(px, py));
        gradientMesh.addVertex(ofVec2f(px+w, py));
        gradientMesh.addVertex(ofVec2f(px+w, py+h / 2));
        gradientMesh.addVertex(ofVec2f(px+w, py+h));
        gradientMesh.addVertex(ofVec2f(px, py+h));
        gradientMesh.addVertex(ofVec2f(px, py+h / 2));
        gradientMesh.addColor(start);
        gradientMesh.addColor(start);
        gradientMesh.addColor(end);
        gradientMesh.addColor(end);
        gradientMesh.addColor(start);
        gradientMesh.addColor(end);
        gradientMesh.addColor(end);
        gradientMesh.addColor(start);
    }
    GLboolean depthMaskEnabled;
    glGetBooleanv(GL_DEPTH_WRITEMASK,&depthMaskEnabled);
    glDepthMask(GL_FALSE);
    gradientMesh.draw();
    if(depthMaskEnabled){
        glDepthMask(GL_TRUE);
    }
}
Ejemplo n.º 29
0
//--------------------------------------------------------------
void testApp::draw(){
	
    
    
    //----------------------------------- start draw for LEDS
    
    
    //    ofBackground( (int)( ofGetElapsedTimef() * 100 ) % 255);
    
    //    float sinOfTime = sin( ofGetElapsedTimef() * 10 );
    //    float sinOfTimeMapped = ofMap( sinOfTime, -1, 1, 0 ,30);
    //    ofSetColor( 127 + 127 * sin(ofGetElapsedTimef()));
    //    ofCircle(mouseX, ofGetHeight() * .5, sinOfTimeMapped * 10.0);
    
    
	// -------------------------- draw the line
	
    
    ofSetColor(fade);
    ofSetLineWidth(5);
    TPR.draw();
	
	// -------------------------- draw the point at the current time
	if (TPR.bHaveADrawing()){			// if we have a drawing to work with
		
		// figure out what time we are at, and make sure we playback cyclically (!)
		// use the duration here and make sure our timeToCheck is in the range of 0 - duration
		float timeToCheck = ofGetElapsedTimef() - playbackStartTime;
		while (timeToCheck > TPR.getDuration() && TPR.getDuration() > 0){
			timeToCheck -= TPR.getDuration();
		}
		
		// get the position and velocity at timeToCheck
		ofPoint pos = TPR.getPositionForTime(timeToCheck);
		ofPoint vel = TPR.getVelocityForTime(timeToCheck);
		
		// since velocity is a line, we want to know how long it is. 
		float lengthOfVel = ofDist(0,0,vel.x, vel.y);
		
		ofFill();
        float sinOfTime = sin( ofGetElapsedTimef() * 5 );
        float sinOfTimeMapped = ofMap( sinOfTime, -1, 1, 10 ,40);
        ofSetColor( 127 + 127 * sin(ofGetElapsedTimef()));
        //    ofCircle(mouseX, ofGetHeight() * .5, sinOfTimeMapped * 10.0);
		ofCircle(pos.x, pos.y, 2 + lengthOfVel/5.0);
		
		
	}
	
    
    
    
    //----------------------------------- end draw for LEDS
    
    
    ofImage imgTemp;
    imgTemp.grabScreen(0, ofGetHeight()/2, ofGetWidth(), 6);
    imgTemp.setImageType(OF_IMAGE_GRAYSCALE );
    
    imgTemp.resize(N_LIGHTS, 6);
    
    unsigned char * pixels = imgTemp.getPixels();
    
    
    
    
    
    if (ofGetFrameNum() % 3 == 0){
        serial.writeByte(255);
        for (int j = 0; j < N_LIGHTS; j++){
            float pct = ofMap(pixels[j], 0, 255, 0 , 1, true);
            float value = ofMap( powf(pct, 2), 0, 1, 0,253, true);
            serial.writeByte(value);
            
            //if (j %  (int)ofClamp(mouseX, 1, 10) == 0) serial.writeByte(254);
            //else serial.writeByte(0);
        }
    }
    
    ofSetColor(127);
    ofFill();
    ofRect(0, ofGetHeight()/2, ofGetWidth(), 6);
    
}
Ejemplo n.º 30
0
bool ofxCircOSC::isOn(int xMouse, int yMouse){//verify the if the mouse is on a particule 
   	//This func need be init in update function, 
	//(i.e. obj.isOn(mouseX,mouseY)) calling to mouse positions;
    if(ofDist(X,Y,xMouse,yMouse)<tamano)isOnn = true;
}