示例#1
0
void DynamicBody::SetMassDistributionFromModel()
{
	LmrCollMesh *m = GetLmrCollMesh();
	// XXX totally arbitrarily pick to distribute mass over a half
	// bounding sphere area
	m_massRadius = m->GetBoundingRadius()*0.5f;
	SetMass(m_mass);
}
示例#2
0
void Viewer::MainLoop()
{
	Uint32 lastTurd = SDL_GetTicks();

	Uint32 t = SDL_GetTicks();
	int numFrames = 0;
	Uint32 lastFpsReadout = SDL_GetTicks();
	g_campos = vector3f(0.0f, 0.0f, m_cmesh->GetBoundingRadius());
	g_camorient = matrix4x4f::Identity();
	matrix4x4f modelRot = matrix4x4f::Identity();
	

	printf("Geom tree build in %dms\n", SDL_GetTicks() - t);

	Render::State::SetZnearZfar(1.0f, 10000.0f);

	for (;;) {
		PollEvents();
		Render::PrepareFrame();

		if (g_keyState[SDLK_LSHIFT] || g_keyState[SDLK_RSHIFT]) {
			if (g_keyState[SDLK_UP]) g_camorient = g_camorient * matrix4x4f::RotateXMatrix(g_frameTime);
			if (g_keyState[SDLK_DOWN]) g_camorient = g_camorient * matrix4x4f::RotateXMatrix(-g_frameTime);
			if (g_keyState[SDLK_LEFT]) g_camorient = g_camorient * matrix4x4f::RotateYMatrix(-g_frameTime);
			if (g_keyState[SDLK_RIGHT]) g_camorient = g_camorient * matrix4x4f::RotateYMatrix(g_frameTime);
			if (g_mouseButton[3]) {
				float rx = 0.01f*g_mouseMotion[1];
				float ry = 0.01f*g_mouseMotion[0];
				g_camorient = g_camorient * matrix4x4f::RotateXMatrix(rx);
				g_camorient = g_camorient * matrix4x4f::RotateYMatrix(ry);
				if (g_mouseButton[1]) {
					g_campos = g_campos - g_camorient * vector3f(0.0f,0.0f,1.0f) * 0.01 *
						m_model->GetDrawClipRadius();
				}
			}
		} else {
			if (g_keyState[SDLK_UP]) modelRot = modelRot * matrix4x4f::RotateXMatrix(g_frameTime);
			if (g_keyState[SDLK_DOWN]) modelRot = modelRot * matrix4x4f::RotateXMatrix(-g_frameTime);
			if (g_keyState[SDLK_LEFT]) modelRot = modelRot * matrix4x4f::RotateYMatrix(-g_frameTime);
			if (g_keyState[SDLK_RIGHT]) modelRot = modelRot * matrix4x4f::RotateYMatrix(g_frameTime);
			if (g_mouseButton[3]) {
				float rx = 0.01f*g_mouseMotion[1];
				float ry = 0.01f*g_mouseMotion[0];
				modelRot = modelRot * matrix4x4f::RotateXMatrix(rx);
				modelRot = modelRot * matrix4x4f::RotateYMatrix(ry);
			}
		}
		if (g_keyState[SDLK_EQUALS]) g_campos = g_campos - g_camorient * vector3f(0.0f,0.0f,1.0f);
		if (g_keyState[SDLK_MINUS]) g_campos = g_campos + g_camorient * vector3f(0.0f,0.0f,1.0f);
		if (g_keyState[SDLK_PAGEUP]) g_campos = g_campos - g_camorient * vector3f(0.0f,0.0f,1.0f);
		if (g_keyState[SDLK_PAGEDOWN]) g_campos = g_campos + g_camorient * vector3f(0.0f,0.0f,1.0f);

//		geom->MoveTo(modelRot, vector3d(0.0,0.0,0.0));

		glMatrixMode(GL_PROJECTION);
		glLoadIdentity();
		float fracH = g_height / (float)g_width;
		glFrustum(-1, 1, -fracH, fracH, 1.0f, 10000.0f);
		glMatrixMode(GL_MODELVIEW);
		glLoadIdentity();
		glClearColor(0,0,0,0);
		glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
		
		SetSbreParams();

		int beforeDrawTriStats = LmrModelGetStatsTris();
	
		if (g_renderType == 0) {
			glPushAttrib(GL_ALL_ATTRIB_BITS);
			matrix4x4f m = g_camorient.InverseOf() * matrix4x4f::Translation(-g_campos) * modelRot.InverseOf();
			if (g_doBenchmark) {
				for (int i=0; i<1000; i++) m_model->Render(m, &params);
			} else {
				m_model->Render(m, &params);
			}
			glPopAttrib();
		} else if (g_renderType == 1) {
			glPushMatrix();
			matrix4x4f m = g_camorient.InverseOf() * matrix4x4f::Translation(-g_campos) * modelRot.InverseOf();
			glMultMatrixf(&m[0]);
			render_coll_mesh(m_cmesh);
			glPopMatrix();
		} else {
			matrix4x4f tran = modelRot * g_camorient;//.InverseOf();
			vector3d forward = tran * vector3d(0.0,0.0,-1.0);
			vector3d up = tran * vector3d(0.0,1.0,0.0);
			raytraceCollMesh(modelRot * g_campos, up, forward, m_space);
		}
		Render::State::UseProgram(0);
		Render::UnbindAllBuffers();

		{
			char buf[128];
			Aabb aabb = m_cmesh->GetAabb();
			snprintf(buf, sizeof(buf), "%d triangles, collision mesh size: %.1fx%.1fx%.1f (radius %.1f)",
					(g_renderType == 0 ? 
						LmrModelGetStatsTris() - beforeDrawTriStats :
						m_cmesh->m_numTris),
					aabb.max.x-aabb.min.x,
					aabb.max.y-aabb.min.y,
					aabb.max.z-aabb.min.z,
					aabb.GetBoundingRadius());
			m_trisReadout->SetText(buf);
		}
		
		Render::PostProcess();
		Gui::Draw();
		
		glError();
		Render::SwapBuffers();
		numFrames++;
		g_frameTime = (SDL_GetTicks() - lastTurd) * 0.001f;
		lastTurd = SDL_GetTicks();
	
		if (SDL_GetTicks() - lastFpsReadout > 1000) {
			int numTris = LmrModelGetStatsTris();
			LmrModelClearStatsTris();
			printf("%d fps, %.3f Million tris/sec\n", numFrames, numTris/1000000.0f);
			numFrames = 0;
			lastFpsReadout = SDL_GetTicks();
		}

		//space->Collide(onCollision);
	}
}