void PlayerInterface3D :: logic(Freq::Time t) { auto n = node(); auto in = controller(); auto m = in->input()->mouse_rel(); const float sens = 0.001f * m_Sens; auto p = n->position(); n->position(glm::vec3()); n->rotate(m.x * sens, glm::vec3(0.0f, -1.0f, 0.0f), Space::PARENT); n->position(p); if(not m_bLockPitch) n->rotate(m.y * sens, glm::vec3(-1.0f, 0.0f, 0.0f)); auto mag = glm::length(m_Move); if(mag > 0.1f) { auto vert_movement = m_Move.y; auto move = vec3(m_Move.x, 0.0f, m_Move.z); auto xz_mag = glm::length(move); if(xz_mag > 0.1) { move = glm::normalize(move) * mag; if(!m_bFly) { auto old_y = n->position().y; n->move(move * t.s(), Space::LOCAL); n->position(vec3(n->position().x, old_y, n->position().z)); } else n->move(move * t.s(), Space::LOCAL); } n->move(vec3(0.0f, vert_movement, 0.0f) * t.s()); } }
void BasicState :: logic(Freq::Time t) { if(m_pInput->key(SDLK_ESCAPE)) m_pQor->quit(); float speed = 1000.0f * t.s(); //if(m_pInput->key(SDLK_r)) //{ // *m_pCamera->matrix() = glm::scale( // *m_pCamera->matrix(), glm::vec3(1.0f-t.s(), 1.0f-t.s(), 1.0f) // ); // m_pCamera->pend(); //} //if(m_pInput->key(SDLK_w)) //{ // *m_pCamera->matrix() = glm::scale( // *m_pCamera->matrix(), glm::vec3(1.0f+t.s(), 1.0f+t.s(), 1.0f) // ); // m_pCamera->pend(); //} if(m_pInput->key(SDLK_UP)) m_pCamera->move(glm::vec3(0.0f, -speed, 0.0f)); if(m_pInput->key(SDLK_DOWN)) m_pCamera->move(glm::vec3(0.0f, speed, 0.0f)); if(m_pInput->key(SDLK_LEFT)) m_pCamera->move(glm::vec3(-speed, 0.0f, 0.0f)); if(m_pInput->key(SDLK_RIGHT)) m_pCamera->move(glm::vec3(speed, 0.0f, 0.0f)); m_pRoot->logic(t); }
void Node :: logic(Freq::Time t) { if(m_bDetach) { detach(); return; } auto self(shared_from_this()); // protect on_tick detach() calls killing pointer Actuation::logic(t); if(self.unique()) return; kit::clear(self); logic_self(t); glm::vec3 new_vel; bool accel = false; if(m_Acceleration != glm::vec3(0.0f)){ new_vel = m_Velocity; m_Velocity += m_Acceleration/2.0f * t.s(); accel = true; new_vel += m_Acceleration * t.s(); } if(m_Velocity != glm::vec3(0.0f)) { //clear_snapshots(); //snapshot(); move(m_Velocity * t.s()); } if(accel) m_Velocity = new_vel; m_ChildrenCopy = m_Children; for(const auto& c: m_ChildrenCopy) c->logic(t); m_ChildrenCopy.clear(); }
void Physics :: logic(Freq::Time advance) { static float accum = 0.0f; const float fixed_step = 1/60.0f; float timestep = advance.s(); accum += timestep; while(accum >= fixed_step) { m_pWorld->stepSimulation(fixed_step, NUM_SUBSTEPS); //NewtonUpdate(m_pWorld, fixed_step); sync(m_pRoot, SYNC_RECURSIVE); //#ifdef _NEWTON_VISUAL_DEBUGGER // NewtonDebuggerServe(m_pDebugger, m_pWorld); //#endif accum -= fixed_step; } }
void ViewModel :: logic_self(Freq::Time t) { Tracker::logic_self(t); auto targ = target(); if(not targ) return; position(targ->position(Space::WORLD)); m_ZoomAnim.logic(t); m_SprintLowerAnim.logic(t); m_SprintRotateAnim.logic(t); m_ZoomFOVAnim.logic(t); m_RecoilAnim.logic(t); m_EquipAnim.logic(t); m_pNode->position( m_ZoomAnim.get() + glm::vec3(0.0f, m_SprintLowerAnim.get() + m_EquipAnim.get(), 0.0f)); m_pCamera->fov(m_ZoomFOVAnim.get()); m_pNode->reset_orientation(); m_pNode->rotate(m_SprintRotateAnim.get(), Axis::Y); m_SwayOffset = glm::vec3(0.0f); if(m_bSway && not m_bZoomed) { m_SwayTime += t.s(); const float SwaySpeed = 1.0f; m_SwayTime -= trunc(m_SwayTime); m_SwayOffset = glm::vec3( -0.01f * sin(m_SwayTime * SwaySpeed * K_TAU), 0.005f * cos(m_SwayTime * SwaySpeed * 2.0f * K_TAU), 0.01f * -sin(m_SwayTime * SwaySpeed * 2.0f * K_TAU) ); } m_SwayOffset += glm::vec3( 0.0f, 0.0f, m_RecoilAnim.get() ); m_pNode->move(m_SwayOffset); }
void LoadingState :: logic(Freq::Time t) { Actuation::logic(t); m_pCamera->ortho(true); m_pPipeline->winding(false); m_pPipeline->blend(false); if(m_pInput->escape()) m_pQor->quit(); m_Fade.logic(t); m_pRoot->logic(t); //m_pPipeline->shader(1)->use(); int fade = m_pPipeline->shader(1)->uniform("LightAmbient"); if(fade != -1) m_pPipeline->shader(1)->uniform( fade, m_Fade.get().vec4() ); m_pQor->do_tasks(); // Loading screen fade style? if(m_pLogo) if(m_bFade){ m_pPipeline->bg_color(m_Fade.get()); Matrix::rescale(*m_pLogo->matrix(), m_Fade.get().r()); m_pLogo->pend(); } if(m_pMusic) { m_pMusic->source()->gain = m_Fade.get().r(); m_pMusic->source()->refresh(); } *m_pWaitIcon->matrix() *= rotate( t.s() * float(K_TAU), vec3(0.0f, 0.0f, -1.0f) ); m_pWaitIcon->position(vec3( m_pWaitIcon->position().x, (m_pWindow->size().y * 1.0f/8.0f) * m_Fade.get().r(), m_pWaitIcon->position().z )); m_pWaitIcon->pend(); if(m_pQor->state(1)->finished_loading()) { if(m_Fade.elapsed()) { if(m_Fade.get() == Color::white()) { m_Fade.frame(Frame<Color>( Color::black(), Freq::Time::seconds(0.5f), INTERPOLATE(out_sine<Color>) )); } else { m_pPipeline->shader(1)->uniform( m_pPipeline->shader(1)->uniform("LightAmbient"), Color::white().vec4() ); m_pQor->pop_state(); } } } }