Merge remote-tracking branch 'origin/lossless_compression' into dev

src/guiengine/widgets/icon_button_widget.cpp

@@ -426,7 +426,6 @@ void IconButtonWidget::setLabelFont()
 }
 
 // -----------------------------------------------------------------------------
-
 void IconButtonWidget::setVisible(bool visible)
 {
     Widget::setVisible(visible);
@@ -434,3 +433,9 @@ void IconButtonWidget::setVisible(bool visible)
     if (m_label != NULL)
         m_label->setVisible(visible);
 }
+
+// -----------------------------------------------------------------------------
+void IconButtonWidget::setText(const wchar_t *s)
+{
+    m_label->setText(s);
+}

src/guiengine/widgets/icon_button_widget.hpp

@@ -170,6 +170,8 @@ namespace GUIEngine
             Widget::elementRemoved();
             m_label = NULL;
         }
+        // --------------------------------------------------------------------
+        virtual void setText(const wchar_t *s) OVERRIDE;
     };
 }
 

src/karts/kart.cpp

@@ -2291,7 +2291,7 @@ void Kart::crashed(const Material *m, const Vec3 &normal)
     const LinearWorld *lw = dynamic_cast<LinearWorld*>(World::getWorld());
     if(m_kart_properties->getTerrainImpulseType()
                              ==KartProperties::IMPULSE_NORMAL &&
-        m_vehicle->getCentralImpulseTime()<=0                     )
+        m_vehicle->getCentralImpulseTicks()<=0                     )
     {
         // Restrict impule to plane defined by gravity (i.e. X/Z plane).
         // This avoids the problem that karts can be pushed up, e.g. above
@@ -2312,7 +2312,7 @@ void Kart::crashed(const Material *m, const Vec3 &normal)
         m_bounce_back_ticks = 0;
         impulse = Vec3(0, 0, 0);
         //m_vehicle->setTimedCentralImpulse(0.1f, impulse);
-        m_vehicle->setTimedCentralImpulse(0.0, impulse);
+        m_vehicle->setTimedCentralImpulse(0, impulse);
     }
     // If there is a quad graph, push the kart towards the previous
     // graph node center (we have to use the previous point since the
@@ -2320,7 +2320,7 @@ void Kart::crashed(const Material *m, const Vec3 &normal)
     // would be pushed forward).
     else if(m_kart_properties->getTerrainImpulseType()
                                  ==KartProperties::IMPULSE_TO_DRIVELINE &&
-            lw && m_vehicle->getCentralImpulseTime()<=0 &&
+            lw && m_vehicle->getCentralImpulseTicks()<=0 &&
             Track::getCurrentTrack()->isPushBackEnabled())
     {
         int sector = lw->getSectorForKart(this);
@@ -2338,7 +2338,8 @@ void Kart::crashed(const Material *m, const Vec3 &normal)
                 impulse = Vec3(0, 0, -1); // Arbitrary
             impulse *= m_kart_properties->getCollisionTerrainImpulse();
             m_bounce_back_ticks = stk_config->time2Ticks(0.2f);
-            m_vehicle->setTimedCentralImpulse(0.1f, impulse);
+            m_vehicle->setTimedCentralImpulse(
+                (uint16_t)stk_config->time2Ticks(0.1f), impulse);
         }
 
     }

src/karts/kart_rewinder.cpp

@@ -154,12 +154,12 @@ BareNetworkString* KartRewinder::saveState(std::vector<std::string>* ru)
 
     buffer->add(body->getLinearVelocity());
     buffer->add(body->getAngularVelocity());
-    buffer->addFloat(m_vehicle->getTimedRotationTime());
+    buffer->addUInt16(m_vehicle->getTimedRotationTicks());
     buffer->add(m_vehicle->getTimedRotation());
 
     // For collision rewind
     buffer->addUInt16(m_bounce_back_ticks);
-    buffer->addFloat(m_vehicle->getCentralImpulseTime());
+    buffer->addUInt16(m_vehicle->getCentralImpulseTicks());
     buffer->add(m_vehicle->getAdditionalImpulse());
 
     // 3) Steering and other player controls
@@ -261,15 +261,17 @@ void KartRewinder::restoreState(BareNetworkString *buffer, int count)
         setTrans(m_transfrom_from_network);
     }
 
-    float time_rot = buffer->getFloat();
+    uint16_t time_rot = buffer->getUInt16();
     // Set timed rotation divides by time_rot
-    m_vehicle->setTimedRotation(time_rot, time_rot*buffer->getVec3());
+    m_vehicle->setTimedRotation(time_rot,
+                                stk_config->ticks2Time(time_rot) 
+                                * buffer->getVec3());
 
     // Collision rewind
     m_bounce_back_ticks = buffer->getUInt16();
-    float central_impulse_time = buffer->getFloat();
+    uint16_t central_impulse_ticks = buffer->getUInt16();
     Vec3 additional_impulse = buffer->getVec3();
-    m_vehicle->setTimedCentralImpulse(central_impulse_time,
+    m_vehicle->setTimedCentralImpulse(central_impulse_ticks,
         additional_impulse, true/*rewind*/);
 
     // For the raycast to determine the current material under the kart

src/karts/skidding.cpp

@@ -536,7 +536,8 @@ void Skidding::update(int ticks, bool is_on_ground,
                 t       = std::min(t,           kp->getSkidRevertVisualTime());
 
                 btVector3 rot(0, m_visual_rotation * kp->getSkidPostSkidRotateFactor(), 0);
-                m_kart->getVehicle()->setTimedRotation(t, rot);
+                m_kart->getVehicle()->setTimedRotation(
+                    (uint16_t)stk_config->time2Ticks(t), rot);
                 // skid_time is used to count backwards for the GFX
                 m_skid_time = stk_config->time2Ticks(t);
                 if(bonus_time>0)

src/network/protocols/server_lobby.cpp

@@ -446,6 +446,7 @@ void ServerLobby::asynchronousUpdate()
     {
         if (ServerConfig::m_owner_less)
         {
+            m_game_setup->update(true/*remove_disconnected_players*/);
             int player_size = m_game_setup->getPlayerCount();
             if ((player_size >= ServerConfig::m_min_start_game_players ||
                 m_game_setup->isGrandPrixStarted()) &&
@@ -458,10 +459,14 @@ void ServerLobby::asynchronousUpdate()
             else if (player_size < ServerConfig::m_min_start_game_players &&
                 !m_game_setup->isGrandPrixStarted())
             {
+                resetPeersReady();
                 m_timeout.store(std::numeric_limits<int64_t>::max());
             }
-            if (m_timeout.load() < (int64_t)StkTime::getRealTimeMs())
+            if (m_timeout.load() < (int64_t)StkTime::getRealTimeMs() ||
+                (checkPeersReady() &&
+                player_size >= ServerConfig::m_min_start_game_players))
             {
+                resetPeersReady();
                 startSelection();
                 return;
             }
@@ -826,6 +831,11 @@ void ServerLobby::startSelection(const Event *event)
                 m_state.load());
             return;
         }
+        if (ServerConfig::m_owner_less)
+        {
+            m_peers_ready.at(event->getPeerSP()) = true;
+            return;
+        }
         if (event->getPeerSP() != m_server_owner.lock())
         {
             Log::warn("ServerLobby",

src/physics/btKart.cpp

@@ -120,9 +120,9 @@ void btKart::reset()
     m_allow_sliding              = false;
     m_num_wheels_on_ground       = 0;
     m_additional_impulse         = btVector3(0,0,0);
-    m_time_additional_impulse    = 0;
+    m_ticks_additional_impulse   = 0;
     m_additional_rotation        = btVector3(0,0,0);
-    m_time_additional_rotation   = 0;
+    m_ticks_additional_rotation  = 0;
     m_max_speed                  = -1.0f;
     m_min_speed                  = 0.0f;
 
@@ -507,23 +507,21 @@ void btKart::updateVehicle( btScalar step )
 
     // Apply additional impulse set by supertuxkart
     // --------------------------------------------
-    if(m_time_additional_impulse>0)
+    if(m_ticks_additional_impulse>0)
     {
-        float dt = step > m_time_additional_impulse
-                 ? m_time_additional_impulse
-                 : step;
+        // We have fixed timestep
+        float dt = stk_config->ticks2Time(1);
         m_chassisBody->applyCentralImpulse(m_additional_impulse*dt);
-        m_time_additional_impulse -= dt;
+        m_ticks_additional_impulse--;
     }
 
     // Apply additional rotation set by supertuxkart
     // ---------------------------------------------
-    if(m_time_additional_rotation>0)
+    if(m_ticks_additional_rotation>0)
     {
         btTransform &t = m_chassisBody->getWorldTransform();
-        float dt = step > m_time_additional_rotation
-                 ? m_time_additional_rotation
-                 : step;
+        // We have fixed timestep
+        float dt = stk_config->ticks2Time(1);
         btQuaternion add_rot(m_additional_rotation.getY()*dt,
                              m_additional_rotation.getX()*dt,
                              m_additional_rotation.getZ()*dt);
@@ -537,7 +535,7 @@ void btKart::updateVehicle( btScalar step )
         // kart, or a strongly 'visual jolt' of the kart
         btTransform &iwt=m_chassisBody->getInterpolationWorldTransform();
         iwt.setRotation(iwt.getRotation()*add_rot);
-        m_time_additional_rotation -= dt;
+        m_ticks_additional_rotation--;
     }
     adjustSpeed(m_min_speed, m_max_speed);
 }   // updateVehicle
@@ -792,7 +790,7 @@ void btKart::updateFriction(btScalar timeStep)
 
         m_forwardImpulse[wheel] = rollingFriction;
 
-        if(m_time_additional_impulse>0)
+        if(m_ticks_additional_impulse>0)
         {
             sliding = true;
             m_wheelInfo[wheel].m_skidInfo = 0.0f;
@@ -822,7 +820,7 @@ void btKart::updateFriction(btScalar timeStep)
     // Note: don't reset zipper speed, or the kart rewinder will
     // get incorrect zipper information.
 
-    if (sliding && (m_allow_sliding || m_time_additional_impulse>0) )
+    if (sliding && (m_allow_sliding || m_ticks_additional_impulse>0) )
     {
         for (int wheel = 0; wheel < getNumWheels(); wheel++)
         {

src/physics/btKart.hpp

@@ -19,6 +19,8 @@ class btDynamicsWorld;
 #include "BulletDynamics/Vehicle/btWheelInfo.h"
 #include "BulletDynamics/Dynamics/btActionInterface.h"
 
+#include "config/stk_config.hpp"
+
 class btVehicleTuning;
 class Kart;
 struct btWheelContactPoint;
@@ -79,13 +81,13 @@ private:
     btVector3           m_additional_impulse;
 
     /** The time the additional impulse should be applied. */
-    float               m_time_additional_impulse;
+    uint16_t            m_ticks_additional_impulse;
 
     /** Additional rotation that is applied over a certain amount of time. */
     btVector3           m_additional_rotation;
 
     /** Duration over which the additional rotation is applied. */
-    float               m_time_additional_rotation;
+    uint16_t            m_ticks_additional_rotation;
 
     /** The rigid body that is the chassis of the kart. */
     btRigidBody        *m_chassisBody;
@@ -218,36 +220,37 @@ public:
     unsigned int getNumWheelsOnGround() const {return m_num_wheels_on_ground;}
     // ------------------------------------------------------------------------
     /** Sets an impulse that is applied for a certain amount of time.
-     *  \param t Time for the impulse to be active.
+     *  \param t Ticks for the impulse to be active.
      *  \param imp The impulse to apply.  */
-    void setTimedCentralImpulse(float t, const btVector3 &imp,
+    void setTimedCentralImpulse(uint16_t t, const btVector3 &imp,
                                 bool rewind = false)
     {
         // Only add impulse if no other impulse is active.
-        if (m_time_additional_impulse > 0 && !rewind) return;
+        if (m_ticks_additional_impulse > 0 && !rewind) return;
         m_additional_impulse      = imp;
-        m_time_additional_impulse = t;
+        m_ticks_additional_impulse = t;
     }   // setTimedImpulse
     // ------------------------------------------------------------------------
     /** Returns the time an additional impulse is activated. */
-    float getCentralImpulseTime() const { return m_time_additional_impulse; }
+    uint16_t getCentralImpulseTicks() const
+                                         { return m_ticks_additional_impulse; }
     // ------------------------------------------------------------------------
     const btVector3& getAdditionalImpulse() const
                                              { return m_additional_impulse; }
     // ------------------------------------------------------------------------
     /** Sets a rotation that is applied over a certain amount of time (to avoid
      *  a too rapid changes in the kart).
-     *  \param t Time for the rotation to be applied.
+     *  \param t Ticks for the rotation to be applied.
      *  \param torque The rotation to apply.  */
-    void setTimedRotation(float t, const btVector3 &rot)
+    void setTimedRotation(uint16_t t, const btVector3 &rot)
     {
-        if(t>0) m_additional_rotation = rot/t;
-        m_time_additional_rotation = t;
+        if(t>0) m_additional_rotation = rot / (stk_config->ticks2Time(t));
+        m_ticks_additional_rotation = t;
     }   // setTimedTorque
     // ------------------------------------------------------------------------
     const btVector3& getTimedRotation() const { return m_additional_rotation;  }
     // ------------------------------------------------------------------------
-    float getTimedRotationTime() const { return m_time_additional_rotation;  }
+    uint16_t getTimedRotationTicks() const { return m_ticks_additional_rotation;  }
     // ------------------------------------------------------------------------
     /** Sets the maximum speed for this kart. */
     void setMaxSpeed(float new_max_speed) 

src/physics/physics.cpp

@@ -496,27 +496,29 @@ void Physics::KartKartCollision(AbstractKart *kart_a,
     // First push one kart to the left (if there is not already
     // an impulse happening - one collision might cause more
     // than one impulse otherwise)
-    if(right_kart->getVehicle()->getCentralImpulseTime()<=0)
+    if(right_kart->getVehicle()->getCentralImpulseTicks()<=0)
     {
         const KartProperties *kp = left_kart->getKartProperties();
         Vec3 impulse(kp->getCollisionImpulse()*f_right, 0, 0);
         impulse = right_kart->getTrans().getBasis() * impulse;
         right_kart->getVehicle()
-                 ->setTimedCentralImpulse(kp->getCollisionImpulseTime(),
-                                          impulse);
+            ->setTimedCentralImpulse(
+            (uint16_t)stk_config->time2Ticks(kp->getCollisionImpulseTime()),
+            impulse);
         right_kart ->getBody()->setAngularVelocity(btVector3(0,0,0));
     }
 
     // Then push the other kart to the right (if there is no
     // impulse happening atm).
-    if(left_kart->getVehicle()->getCentralImpulseTime()<=0)
+    if(left_kart->getVehicle()->getCentralImpulseTicks()<=0)
     {
         const KartProperties *kp = right_kart->getKartProperties();
         Vec3 impulse = Vec3(-kp->getCollisionImpulse()*f_left, 0, 0);
         impulse = left_kart->getTrans().getBasis() * impulse;
         left_kart->getVehicle()
-                  ->setTimedCentralImpulse(kp->getCollisionImpulseTime(),
-                                           impulse);
+            ->setTimedCentralImpulse(
+            (uint16_t)stk_config->time2Ticks(kp->getCollisionImpulseTime()),
+            impulse);
         left_kart->getBody()->setAngularVelocity(btVector3(0,0,0));
     }
 

src/states_screens/online/networking_lobby.cpp

@@ -152,6 +152,7 @@ void NetworkingLobby::init()
     //I18N: In the networking lobby
     m_header->setText(_("Lobby"), false);
     m_server_info_height = GUIEngine::getFont()->getDimension(L"X").Height;
+    m_start_button->setText(_("Start race"));
     m_start_button->setVisible(false);
     m_state = LS_CONNECTING;
     getWidget("chat")->setVisible(false);
@@ -290,9 +291,11 @@ void NetworkingLobby::onUpdate(float delta)
             if (remain < 0)
                 remain = 0;
             //I18N: In the networking lobby, display the starting timeout
-            //for owner-less server
-            core::stringw msg = _P("Game will start after %d second.",
-               "Game will start after %d seconds.", (int)remain);
+            //for owner-less server to begin a game
+            core::stringw msg = _P("Starting after %d second "
+                "or everyone pressed 'Ready' button.",
+                "Starting after %d seconds "
+                "or everyone pressed 'Ready' button.", (int)remain);
             m_timeout_message->setText(msg, true);
         }
     }
@@ -344,7 +347,9 @@ void NetworkingLobby::onUpdate(float delta)
         m_text_bubble->setText(total_msg, true);
     }
 
-    if (STKHost::get()->isAuthorisedToControl())
+    if (STKHost::get()->isAuthorisedToControl() ||
+        (m_has_auto_start_in_server &&
+        m_cur_starting_timer != std::numeric_limits<int64_t>::max()))
     {
         m_start_button->setVisible(true);
     }
@@ -571,6 +576,9 @@ void NetworkingLobby::initAutoStartTimer(bool grand_prix_started,
     if (min_players == 0 || start_timeout == 0.0f)
         return;
 
+    //I18N: In the networking lobby, ready button is to allow player to tell
+    //server that he is ready for next game for owner less server
+    m_start_button->setText(_("Ready"));
     m_has_auto_start_in_server = true;
     m_min_start_game_players = grand_prix_started ? 0 : min_players;
     m_start_timeout = start_timeout;