Exemplo n.º 1
0
void ClusterBomb::explode()
{
#ifdef DEBUG
//  printf("ClusterBomb just exploded!\n");
#endif
  WorldObject * wo;
  float angle = 6.28318 / BOMB_PIECES;
  Vector a = Vector(1, 0, 0);
  Vector b = Vector(0, 0, 1);
  Vector c = Vector(0, .1, 0);
  float mag = global::factory->getBlueprint(type).getSize().mag() / 4;
  Vector off;
  for (int i = 0; i < BOMB_PIECES; i++)
  {
    wo = new WorldObject(0, 0, DUMMY_SPHERE);
    off = a * mag * sin(i * angle) + b * mag * cos(i * angle) + c;
    wo->setPosition(position + off);
    wo->setVelocity(velocity + off);
    networkManager->network->getPhysicsPtr()->insertWorldObject(wo);
    wo = new WorldObject(0, 0, DUMMY_SPHERE);
    off = a * mag * cos(i * angle) + b * mag * sin(i * angle) - c;
    wo->setPosition(position + off);
    wo->setVelocity(velocity + off);
    networkManager->network->getPhysicsPtr()->insertWorldObject(wo);
  }
}
Exemplo n.º 2
0
int init_resources(void) {
	try{
		player.moveLeft(9);
		player.moveForward(7);
		player.rotateX(-M_PI*3/4);
		player.rotateY(M_PI/12);
		player.addForce(gravity*-1);

		player.loadObj("crazy.o");
		cube.loadObj("cube.o");
		cube2.loadObj("cube.o");

		setupBuffers(player);
		setupBuffers(cube);
		setupBuffers(cube2);

		addObjectToShader(&cube);
		addObjectToShader(&cube2);
		bool c1 = cube.loadShaders(vertexShaderFileName, fragmentShaderFileName),
			 c2 = cube2.loadShaders(vertexShaderFileName, fragmentShaderFileName);
		Vector3 pos = cube2.getPosition()+ Vector3(0.5f, 3.5f, 1.5f);
		cube2.setPosition(pos);
		//cube2.setRotation(Vector3(30*M_PI/180, 0, 40*M_PI/180));
		return c1 * c2;
	}catch(int i){
		return 0;
	}
}
Exemplo n.º 3
0
void idle() {
	keyboardEvent();
	int time_ = glutGet(GLUT_ELAPSED_TIME);
	float angle = time_ / 1000.0 * 10;

	Vector3 pos = player.getPosition();
	float angX = player.getRotationX(),
		  angY = player.getRotationY();

	Vector3 cpos = cube.getPosition(),
			cpos2= cube2.getPosition();

	GLfloat D = cpos.distance(&cpos2),
			W = (cube.dimension() + cube2.dimension())/2;
	float bound = 6.0;
	//if(time_%100 < 10)
	//	gravity = Vector3(rand()%10-5, rand()%10-5, rand()%10-5);
	cvelocity.add(&gravity);
	Vector3 s = cvelocity;
	s.mult(-mass/1000).add(&cpos2);
	bool collides = true;
	if(cpos2.x < -bound && cvelocity.x > 0.0f){
		cvelocity.x = -abs(cvelocity.x)*0.5;
		gravity.x = -abs(gravity.x);
	}
	else if(cpos2.x > bound && cvelocity.x < 0.0f){
		cvelocity.x = abs(cvelocity.x)*0.5;
		gravity.x = abs(gravity.x);
	}
	else if(cpos2.y < -bound && cvelocity.y > 0.0f){
		cvelocity.y = -abs(cvelocity.y)*0.5;
		gravity.y = -abs(gravity.y);
	}
	else if(cpos2.y > bound && cvelocity.y < 0.0f){
		cvelocity.y = abs(cvelocity.y)*0.5;
		gravity.y = abs(gravity.y);
	}
	else if(cpos2.z < -bound && cvelocity.z > 0.0f){
		cvelocity.z = -abs(cvelocity.z)*0.5;
		gravity.z = -abs(gravity.z);
	}
	else if(cpos2.z > bound && cvelocity.z < 0.0f){
		cvelocity.z = abs(cvelocity.z)*0.5;
		gravity.z = abs(gravity.z);
	}
	else{
		collides = false;
	}
	
	if(!collides){
		if(cpos.x + cube.min.x <= cpos2.x + cube2.max.x && cpos.x + cube.max.x >= cpos2.x + cube2.min.x && 
			cpos.z + cube.min.z <= cpos2.z + cube2.max.z && cpos.z + cube.max.z >= cpos2.z + cube2.min.z && 
			cpos.y + cube.min.y <= cpos2.y + cube2.max.y && cpos.y + cube.max.y >= cpos2.y + cube2.min.y){
			collides = true;
			cvelocity.x = cvelocity.y = cvelocity.z = 0.0f;
		}
		
		if(!collides)
			cube2.setPosition(s);
	}

	player.updateForce();
	for (int i = 0; i < BALLS; i++){
		balls[i].updateForce();
		Vector3 ball_pos = balls[i].getPosition(),
				ball_vel = balls[i].dynamics.velocity;
		//printf("x: %f, y: %f, z %f: %f\n", ball_pos.x, ball_pos.y, ball_pos.z, BOUNDARY);
		if(ball_pos.x < -BOUNDARY || ball_pos.x > BOUNDARY)
			balls[i].addVelocity(Vector3(-2 * ball_vel.x, 0.0f, 0.0f));
		if(ball_pos.y < -BOUNDARY || ball_pos.y > BOUNDARY)
			balls[i].addVelocity(Vector3(0.0f, -2 * ball_vel.y, 0.0f));
		if(ball_pos.z < -BOUNDARY || ball_pos.z > BOUNDARY)
			balls[i].addVelocity(Vector3(0.0f, 0.0f, -2 * ball_vel.z));
	}

	Matrix4 model = cube.getTransformMatrix(),
			model2 = cube2.getTransformMatrix();
	Matrix4 projection = Matrix4().Perspective(45.0f, 1.0f*screen_width/screen_height, 0.1f, 50.0f),
			view = Matrix4().lookAt(pos, Vector3(pos.x-cos(angX), pos.y + sin(angY), pos.z + sin(angX)), Vector3(0.0f, 1.0f, 0.0f));
	Matrix4 anim = Matrix4().RotateA(angle*3.0f, Vector3(1, 0, 0)) * 	// X axis
					Matrix4().RotateA(angle*2.0f, Vector3(0, 1, 0)) *	// Y axis
					Matrix4().RotateA(angle*4.0f, Vector3(0, 0, 1));	// Z axis


	Matrix4 m_transform = projection * view;

	glUseProgram(cube.getProgram());
	glUniformMatrix4fv(cube.getUniform("m_transform"), 1, GL_FALSE, m_transform * model);

	glUseProgram(cube2.getProgram());
	glUniformMatrix4fv(cube2.getUniform("m_transform"), 1, GL_FALSE, m_transform * model2);

	for (int i = 0; i < BALLS; i++){
		glUseProgram(balls[i].getProgram());
		glUniformMatrix4fv(
			balls[i].getUniform("m_transform"), 	// m_transform is the transformation of balls[i] in shaders
			1, 										// one uniform-buffer 
			GL_FALSE, 								// no nprmalization
			m_transform * balls[i].getTransformMatrix()
		);
	}
	for (int i = 0; i < DETAIL_GRID*3; i++){
		grid[i].updateForce();
		glUseProgram(grid[i].getProgram());
		glUniformMatrix4fv(
			grid[i].getUniform("m_transform"), 	// m_transform is the transformation of grid[i] in shaders
			1, 										// one uniform-buffer 
			GL_FALSE, 								// no nprmalization
			m_transform * grid[i].getTransformMatrix()
		);
	}

	glutPostRedisplay();
}
Exemplo n.º 4
0
int init_resources(void) {
	try{
		player.moveLeft(9);
		player.moveForward(7);
		player.rotateX(-M_PI*3/4);
		player.rotateY(M_PI/12);
		player.addForce(gravity*-1);

		player.loadObj("crazy.o");
		cube.loadObj("cube.o");
		cube2.loadObj("cube.o");

		setupBuffers(player);
		setupBuffers(cube);
		setupBuffers(cube2);

		addObjectToShader(&cube);
		addObjectToShader(&cube2);
		bool c1 = cube.loadShaders(vertexShaderFileName, fragmentShaderFileName),
			 c2 = cube2.loadShaders(vertexShaderFileName, fragmentShaderFileName),
			 c3 = 1;

		for(int i=0; i< BALLS; i++){
			balls[i].loadObj("crazy.o");
			balls[i].setScale(Vector3(0.25f,0.25f,0.25f));
			setupBuffers(balls[i]);
			addObjectToShader(&(balls[i]));
			c3 *= balls[i].loadShaders(vertexShaderFileName, fragmentShaderFileName);

			balls[i].addVelocity(Vector3(m_rand()-0.5f, m_rand()-0.5f, m_rand()-0.5f).normalize().mult(60.0));
		}
		GLfloat scale_grid = ((GLfloat)DETAIL_GRID*2.0f)/((GLfloat)BOUNDARY);
		for(int i=0; i< DETAIL_GRID; i++){
			for(int j = 0;j < DETAIL_GRID; j++){
				grid[i].loadObj("cube.o");

				grid[i].setScale(Vector3(scale_grid, scale_grid, scale_grid));
				setupBuffers(grid[i]);
				addObjectToShader(&(grid[i]));
				c3 *= grid[i].loadShaders(vertexShaderFileName, fragmentShaderFileName);


				grid[i].setPosition(Vector3(i*scale_grid, j*scale_grid, k*scale_grid - DETAIL_GRID-2.0f));
				/*if(i%6 == 0)
					grid[i].setPosition(Vector3(DETAIL_GRID + 1.0f, (i-3)*scale_grid-DETAIL_GRID, (i-3)*scale_grid-DETAIL_GRID));
				else if(i%6 == 1)
					grid[i].setPosition(Vector3((i-2)*scale_grid-DETAIL_GRID, DETAIL_GRID + 1.0f, (i-2)*scale_grid-DETAIL_GRID));
				else if(i%6 == 2)
					grid[i].setPosition(Vector3((i-1)*scale_grid-DETAIL_GRID, (i-1)*scale_grid-DETAIL_GRID, DETAIL_GRID + 1.0f));
				else if(i%6 == 3)
					grid[i].setPosition(Vector3(-DETAIL_GRID - 1.0f , i*scale_grid-DETAIL_GRID, i*scale_grid-DETAIL_GRID));
				else if(i%6 == 4)
					grid[i].setPosition(Vector3((i+1)*scale_grid-DETAIL_GRID, -DETAIL_GRID - 1.0f, (i+1)*scale_grid-DETAIL_GRID));
				else if(i%6 == 5)
					grid[i].setPosition(Vector3((i+2)*scale_grid-DETAIL_GRID, (i+2)*scale_grid-DETAIL_GRID, -DETAIL_GRID - 1.0f));*/
			}
		}
		Vector3 pos = cube2.getPosition()+ Vector3(0.5f, 3.5f, 1.5f);
		cube2.setPosition(pos);
		//cube2.setRotation(Vector3(30*M_PI/180, 0, 40*M_PI/180));
		return c1 * c2 * c3;
	}catch(int i){
		return 0;
	}
}
Exemplo n.º 5
0
void CarnageState::updateInput(long milli_time) {
#ifdef CLIENT
   // TODO REMOVE DEMO CODE
   if(io::keys['8']) {
	  io::keys['8'] = false;
      networkManager->network->loadLevel("resources/2base.lvl");
   }
   if(io::keys['9']) {
	  io::keys['9'] = false;
      networkManager->network->loadLevel("resources/test2.lvl");
   }
   if(io::keys['0']) {
	  io::keys['0'] = false;
      networkManager->network->loadLevel("resources/bigplus.lvl");
   }
   if(io::keys['-']) {
	  io::keys['-'] = false;
      networkManager->network->loadLevel("resources/ibigplus.lvl");
   }
   if(io::keys['c']) {
	  io::keys['c'] = false;
	  networkManager->network->serverConnect("127.0.0.1", 5060);
   }

	//stop music
	if(io::keys['['])
	{
		global::soundManager->stopPlayingMusic();
	}

	//play music for carnage state
	if(io::keys[']'] && music_delay <= 0)
	{
		if(stateType() == RESULTS_STATE)
		{
			global::soundManager->playResultWinSong();
		}
		else
		{
			global::soundManager->playCarnageSong();
		}
		music_delay = MUSIC_DELAY;
	}

	if(io::keys['n'] && music_delay <= 0)
	{
		if(stateType() == RESULTS_STATE)
		{
			global::soundManager->playNextResultSong();
		}
		else
		{
			global::soundManager->playNextCarnageSong();
		}
		music_delay = MUSIC_DELAY;
	}

   // TODO END DEMO CODE

   // General Keyboard Layout
   if(io::keys[27]) {
	  networkManager->network->serverDisconnect();
      exit(0);
   }

   // FIRE CONTROLS
   if (stateType() == CARNAGE_STATE) // only fire in the real carnage state
   {
	   if((io::keys[' '] || io::mouse_buttons[MOUSE_LEFT] == GLUT_DOWN) &&
			   ammoTimers[ammoIndex] <= 0 &&
			   (ammoCounts[ammoIndex] > 0 || ammoCounts[ammoIndex] == -1))
	   {
			switch(ammoIndex)
			{
				case 0:
					global::soundManager->playCarnageSfx(0);
					break;
					
				case 1:
					global::soundManager->playCarnageSfx(4);
					break;
				
				case 2:
					global::soundManager->playCarnageSfx(3);
					break;
					
				case 3:
					global::soundManager->playCarnageSfx(1);
					break;
					
				case 4:
					global::soundManager->playCarnageSfx(2);
					break;
					
				case 5:
					global::soundManager->playCarnageSfx(4);
					break;
					
				default:
					break;
			}
		  WorldObject *newObjPtr = global::factory->makeObject(ammoTypes[ammoIndex]);
		  newObjPtr->setPosition(camera->position() - Vector( 0.0f, 1.0f, 0.0f));
		  newObjPtr->setVelocity((camera->viewVec() + Vector(0.0f, 0.15f, 0.0f)) * 50); // offset the view vector a bit to more closely match the targeting reticle
		  networkManager->network->addObject(newObjPtr);
		  ammoTimers[ammoIndex] = ammoDelayTimers[ammoIndex];
		  if(ammoCounts[ammoIndex] != -1)
			  --ammoCounts[ammoIndex];
	   }
	}
#endif
}