Exemplo n.º 1
0
        public void Solve(ref b2Profile profile, b2TimeStep step, b2Vec2 gravity, bool allowSleep)
        {
            b2Timer timer = new b2Timer();

            float h = step.dt;

            // Integrate velocities and apply damping. Initialize the body state.
            for (int i = 0; i < m_bodyCount; ++i)
            {
                b2Body b = m_bodies[i];

                b2Vec2 c = b.Sweep.c;
                float a = b.Sweep.a;
                b2Vec2 v = b.LinearVelocity;
                float w = b.AngularVelocity;

                // Store positions for continuous collision.
                b.Sweep.c0 = b.Sweep.c;
                b.Sweep.a0 = b.Sweep.a;

                if (b.BodyType == b2BodyType.b2_dynamicBody)
                {
                    // Integrate velocities.
                    v += h * (b.GravityScale * gravity + b.InvertedMass * b.Force);
                    w += h * b.InvertedI * b.Torque;

                    // Apply damping.
                    // ODE: dv/dt + c * v = 0
                    // Solution: v(t) = v0 * exp(-c * t)
                    // Time step: v(t + dt) = v0 * exp(-c * (t + dt)) = v0 * exp(-c * t) * exp(-c * dt) = v * exp(-c * dt)
                    // v2 = exp(-c * dt) * v1
                    // Taylor expansion:
                    // v2 = (1.0f - c * dt) * v1
                    v *= b2Math.b2Clamp(1.0f - h * b.LinearDamping, 0.0f, 1.0f);
                    w *= b2Math.b2Clamp(1.0f - h * b.AngularDamping, 0.0f, 1.0f);
                }

                m_positions[i].c = c;
                m_positions[i].a = a;
                m_velocities[i].v = v;
                m_velocities[i].w = w;
            }

            timer.Reset();

            // Solver data
            b2SolverData solverData = new b2SolverData();
            solverData.step = step;
            solverData.positions = m_positions;
            solverData.velocities = m_velocities;

            // Initialize velocity constraints.
            b2ContactSolverDef contactSolverDef;
            contactSolverDef.step = step;
            contactSolverDef.contacts = m_contacts;
            contactSolverDef.count = m_contactCount;
            contactSolverDef.positions = m_positions;
            contactSolverDef.velocities = m_velocities;

            b2ContactSolver contactSolver = new b2ContactSolver(contactSolverDef);
            contactSolver.InitializeVelocityConstraints();

            if (step.warmStarting)
            {
                contactSolver.WarmStart();
            }

            for (int i = 0; i < m_jointCount; ++i)
            {
                m_joints[i].InitVelocityConstraints(solverData);
            }

            profile.solveInit = timer.GetMilliseconds();

            // Solve velocity constraints
            timer.Reset();
            for (int i = 0; i < step.velocityIterations; ++i)
            {
                for (int j = 0; j < m_jointCount; ++j)
                {
                    m_joints[j].SolveVelocityConstraints(solverData);
                }

                contactSolver.SolveVelocityConstraints();
            }

            // Store impulses for warm starting
            contactSolver.StoreImpulses();
            profile.solveVelocity = timer.GetMilliseconds();

            // Integrate positions
            for (int i = 0; i < m_bodyCount; ++i)
            {
                b2Vec2 c = m_positions[i].c;
                float a = m_positions[i].a;
                b2Vec2 v = m_velocities[i].v;
                float w = m_velocities[i].w;

                // Check for large velocities
                b2Vec2 translation = h * v;
                if (b2Math.b2Dot(translation, translation) > b2Settings.b2_maxTranslationSquared)
                {
                    float ratio = b2Settings.b2_maxTranslation / translation.Length();
                    v *= ratio;
                }

                float rotation = h * w;
                if (rotation * rotation > b2Settings.b2_maxRotationSquared)
                {
                    float ratio = b2Settings.b2_maxRotation / Math.Abs(rotation);
                    w *= ratio;
                }

                // Integrate
                c += h * v;
                a += h * w;

                m_positions[i].c = c;
                m_positions[i].a = a;
                m_velocities[i].v = v;
                m_velocities[i].w = w;
            }

            // Solve position constraints
            timer.Reset();
            bool positionSolved = false;
            for (int i = 0; i < step.positionIterations; ++i)
            {
                bool contactsOkay = contactSolver.SolvePositionConstraints();

                bool jointsOkay = true;
                for (int i2 = 0; i2 < m_jointCount; ++i2)
                {
                    bool jointOkay = m_joints[i2].SolvePositionConstraints(solverData);
                    jointsOkay = jointsOkay && jointOkay;
                }

                if (contactsOkay && jointsOkay)
                {
                    // Exit early if the position errors are small.
                    positionSolved = true;
                    break;
                }
            }

            // Copy state buffers back to the bodies
            for (int i = 0; i < m_bodyCount; ++i)
            {
                b2Body body = m_bodies[i];
                body.Sweep.c = m_positions[i].c;
                body.Sweep.a = m_positions[i].a;
                body.LinearVelocity = m_velocities[i].v;
                body.AngularVelocity = m_velocities[i].w;
                body.SynchronizeTransform();
            }

            profile.solvePosition = timer.GetMilliseconds();

            Report(contactSolver.m_velocityConstraints);

            if (allowSleep)
            {
                float minSleepTime = b2Settings.b2_maxFloat;

                float linTolSqr = b2Settings.b2_linearSleepTolerance * b2Settings.b2_linearSleepTolerance;
                float angTolSqr = b2Settings.b2_angularSleepTolerance * b2Settings.b2_angularSleepTolerance;

                for (int i = 0; i < m_bodyCount; ++i)
                {
                    b2Body b = m_bodies[i];
                    if (b.BodyType == b2BodyType.b2_staticBody)
                    {
                        continue;
                    }

                    if (!(b.BodyFlags.HasFlag(b2BodyFlags.e_autoSleepFlag)) ||
                        b.AngularVelocity * b.AngularVelocity > angTolSqr ||
                        b2Math.b2Dot(b.LinearVelocity, b.LinearVelocity) > linTolSqr)
                    {
                        b.SleepTime = 0.0f;
                        minSleepTime = 0.0f;
                    }
                    else
                    {
                        b.SleepTime += h;
                        minSleepTime = Math.Min(minSleepTime, b.SleepTime);
                    }
                }

                if (minSleepTime >= b2Settings.b2_timeToSleep && positionSolved)
                {
                    for (int i = 0; i < m_bodyCount; ++i)
                    {
                        b2Body b = m_bodies[i];
                        b.SetAwake(false);
                    }
                }
            }
        }
Exemplo n.º 2
0
        // Find islands, integrate and solveraints, solve positionraints
        public void Solve(b2TimeStep step)
        {
            m_profile.solveInit     = 0.0f;
            m_profile.solveVelocity = 0.0f;
            m_profile.solvePosition = 0.0f;

            // Size the island for the worst case.
            b2Island island = new b2Island(m_bodyCount,
                                           m_contactManager.ContactCount,
                                           m_jointCount,
                                           m_contactManager.ContactListener);

            // Clear all the island flags.
            for (b2Body b = m_bodyList; b != null; b = b.Next)
            {
                b.BodyFlags &= ~b2BodyFlags.e_islandFlag;
            }
            for (b2Contact c = m_contactManager.ContactList; c != null; c = c.Next)
            {
                c.ContactFlags &= ~b2ContactFlags.e_islandFlag;
            }
            for (b2Joint j = m_jointList; j; j = j.Next)
            {
                j.m_islandFlag = false;
            }

            // Build and simulate all awake islands.
            int stackSize = m_bodyCount;

            b2Body[] stack = new b2Body[stackSize];
            for (b2Body seed = m_bodyList; seed != null; seed = seed.Next)
            {
                if (seed.BodyFlags & b2BodyFlags.e_islandFlag)
                {
                    continue;
                }

                if (seed.IsAwake() == false || seed.IsActive() == false)
                {
                    continue;
                }

                // The seed can be dynamic or kinematic.
                if (seed.BodyType == b2BodyType.b2_staticBody)
                {
                    continue;
                }

                // Reset island and stack.
                island.Clear();
                int stackCount = 0;
                stack[stackCount++] = seed;
                seed.BodyFlags     |= b2BodyFlags.e_islandFlag;

                // Perform a depth first search (DFS) on theraint graph.
                while (stackCount > 0)
                {
                    // Grab the next body off the stack and add it to the island.
                    b2Body b = stack[--stackCount];
                    island.Add(b);

                    // Make sure the body is awake.
                    b.SetAwake(true);

                    // To keep islands as small as possible, we don't
                    // propagate islands across static bodies.
                    if (b.BodyType == b2BodyType.b2_staticBody)
                    {
                        continue;
                    }

                    // Search all contacts connected to this body.
                    for (b2ContactEdge ce = b.ContactList; ce != null; ce = ce.next)
                    {
                        b2Contact contact = ce.contact;

                        // Has this contact already been added to an island?
                        if (contact.ContactFlags & b2ContactFlags.e_islandFlag)
                        {
                            continue;
                        }

                        // Is this contact solid and touching?
                        if (contact.IsEnabled() == false ||
                            contact.IsTouching() == false)
                        {
                            continue;
                        }

                        // Skip sensors.
                        bool sensorA = contact.m_fixtureA.m_isSensor;
                        bool sensorB = contact.m_fixtureB.m_isSensor;
                        if (sensorA || sensorB)
                        {
                            continue;
                        }

                        island.Add(contact);
                        contact.ContactFlags |= b2ContactType.e_islandFlag;

                        b2Body other = ce.other;

                        // Was the other body already added to this island?
                        if ((other.BodyFlags & b2BodyFlags.e_islandFlag) > 0)
                        {
                            continue;
                        }

                        stack[stackCount++] = other;
                        other.BodyFlags    |= b2BodyFlags.e_islandFlag;
                    }

                    // Search all joints connect to this body.
                    for (b2JointEdge je = b.JointList; je; je = je.next)
                    {
                        if (je.joint.IslandFlag == true)
                        {
                            continue;
                        }

                        b2Body other = je.other;

                        // Don't simulate joints connected to inactive bodies.
                        if (other.IsActive() == false)
                        {
                            continue;
                        }

                        island.Add(je.joint);
                        je.joint.m_islandFlag = true;

                        if ((other.BodyFlags & b2BodyFlags.e_islandFlag) > 0)
                        {
                            continue;
                        }

                        stack[stackCount++] = other;
                        other.BodyFlags    |= b2BodyFlags.e_islandFlag;
                    }
                }

                b2Profile profile = island.Solve(step, m_gravity, m_allowSleep);
                m_profile.solveInit     += profile.solveInit;
                m_profile.solveVelocity += profile.solveVelocity;
                m_profile.solvePosition += profile.solvePosition;

                // Post solve cleanup.
                for (int i = 0; i < island.m_bodyCount; ++i)
                {
                    // Allow static bodies to participate in other islands.
                    b2Body b = island.m_bodies[i];
                    if (b.BodyType == b2BodyType.b2_staticBody)
                    {
                        b.BodyFlags &= ~b2BodyFlags.e_islandFlag;
                    }
                }
            }

            {
                b2Timer timer;
                // Synchronize fixtures, check for out of range bodies.
                for (b2Body b = m_bodyList; b != null; b = b.Next)
                {
                    // If a body was not in an island then it did not move.
                    if ((b.BodyFlags & b2BodyType.e_islandFlag) == 0)
                    {
                        continue;
                    }

                    if (b.GetBodyType() == b2BodyType.b2_staticBody)
                    {
                        continue;
                    }

                    // Update fixtures (for broad-phase).
                    b.SynchronizeFixtures();
                }

                // Look for new contacts.
                m_contactManager.FindNewContacts();
                m_profile.broadphase = timer.GetMilliseconds();
            }
        }
Exemplo n.º 3
0
        protected virtual void Draw(Settings settings)
        {
            m_world.DrawDebugData();

            if (settings.drawStats)
            {
                int bodyCount = m_world.BodyCount;
                int contactCount = m_world.ContactCount;
                int jointCount = m_world.JointCount;
                m_debugDraw.DrawString(5, m_textLine, "bodies/contacts/joints = {0}/{1}/{2}", bodyCount, contactCount,
                                       jointCount);
                m_textLine += 15;

                int proxyCount = m_world.GetProxyCount();
                int height = m_world.GetTreeHeight();
                int balance = m_world.GetTreeBalance();
                float quality = m_world.GetTreeQuality();
                m_debugDraw.DrawString(5, m_textLine, "proxies/height/balance/quality = {0}/{1}/{2}/{3}", proxyCount,
                                       height, balance, quality);
                m_textLine += 15;
            }
#if PROFILING
            // Track maximum profile times
            {
                b2Profile p = m_world.Profile;
                m_maxProfile.step = Math.Max(m_maxProfile.step, p.step);
                m_maxProfile.collide = Math.Max(m_maxProfile.collide, p.collide);
                m_maxProfile.solve = Math.Max(m_maxProfile.solve, p.solve);
                m_maxProfile.solveInit = Math.Max(m_maxProfile.solveInit, p.solveInit);
                m_maxProfile.solveVelocity = Math.Max(m_maxProfile.solveVelocity, p.solveVelocity);
                m_maxProfile.solvePosition = Math.Max(m_maxProfile.solvePosition, p.solvePosition);
                m_maxProfile.solveTOI = Math.Max(m_maxProfile.solveTOI, p.solveTOI);
                m_maxProfile.broadphase = Math.Max(m_maxProfile.broadphase, p.broadphase);

                m_totalProfile.step += p.step;
                m_totalProfile.collide += p.collide;
                m_totalProfile.solve += p.solve;
                m_totalProfile.solveInit += p.solveInit;
                m_totalProfile.solveVelocity += p.solveVelocity;
                m_totalProfile.solvePosition += p.solvePosition;
                m_totalProfile.solveTOI += p.solveTOI;
                m_totalProfile.broadphase += p.broadphase;
            }

            if (settings.drawProfile)
            {
                b2Profile p = m_world.Profile;

                b2Profile aveProfile = new b2Profile();
                if (m_stepCount > 0)
                {
                    float scale = 1.0f / m_stepCount;
                    aveProfile.step = scale * m_totalProfile.step;
                    aveProfile.collide = scale * m_totalProfile.collide;
                    aveProfile.solve = scale * m_totalProfile.solve;
                    aveProfile.solveInit = scale * m_totalProfile.solveInit;
                    aveProfile.solveVelocity = scale * m_totalProfile.solveVelocity;
                    aveProfile.solvePosition = scale * m_totalProfile.solvePosition;
                    aveProfile.solveTOI = scale * m_totalProfile.solveTOI;
                    aveProfile.broadphase = scale * m_totalProfile.broadphase;
                }

                m_debugDraw.DrawString(5, m_textLine, "step [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})", p.step,
                                       aveProfile.step, m_maxProfile.step);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "collide [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})", p.collide,
                                       aveProfile.collide, m_maxProfile.collide);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "solve [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})", p.solve,
                                       aveProfile.solve, m_maxProfile.solve);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "solve init [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})", p.solveInit,
                                       aveProfile.solveInit, m_maxProfile.solveInit);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "solve velocity [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})",
                                       p.solveVelocity, aveProfile.solveVelocity, m_maxProfile.solveVelocity);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "solve position [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})",
                                       p.solvePosition, aveProfile.solvePosition, m_maxProfile.solvePosition);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "solveTOI [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})", p.solveTOI,
                                       aveProfile.solveTOI, m_maxProfile.solveTOI);
                m_textLine += 15;
                m_debugDraw.DrawString(5, m_textLine, "broad-phase [ave] (max) = {0:00000.00} [{1:000000.00}] ({2:000000.00})", p.broadphase,
                                       aveProfile.broadphase, m_maxProfile.broadphase);
                m_textLine += 15;
            }
#endif
            if (m_mouseJoint != null)
            {
                b2Vec2 p1 = m_mouseJoint.GetAnchorB();
                b2Vec2 p2 = m_mouseJoint.GetTarget();

                b2Color c = new b2Color();
                c.Set(0.0f, 1.0f, 0.0f);
                m_debugDraw.DrawPoint(p1, 4.0f, c);
                m_debugDraw.DrawPoint(p2, 4.0f, c);

                c.Set(0.8f, 0.8f, 0.8f);
                m_debugDraw.DrawSegment(p1, p2, c);
            }

            if (m_bombSpawning)
            {
                b2Color c = new b2Color();
                c.Set(0.0f, 0.0f, 1.0f);
                m_debugDraw.DrawPoint(m_bombSpawnPoint, 4.0f, c);

                c.Set(0.8f, 0.8f, 0.8f);
                m_debugDraw.DrawSegment(m_mouseWorld, m_bombSpawnPoint, c);
            }

            if (settings.drawContactPoints)
            {
                //const float32 k_impulseScale = 0.1f;
                float k_axisScale = 0.3f;

                for (int i = 0; i < m_pointCount; ++i)
                {
                    ContactPoint point = m_points[i];

                    if (point.state == b2PointState.b2_addState)
                    {
                        // Add
                        m_debugDraw.DrawPoint(point.position, 10.0f, new b2Color(0.3f, 0.95f, 0.3f));
                    }
                    else if (point.state == b2PointState.b2_persistState)
                    {
                        // Persist
                        m_debugDraw.DrawPoint(point.position, 5.0f, new b2Color(0.3f, 0.3f, 0.95f));
                    }

                    if (settings.drawContactNormals == 1)
                    {
                        b2Vec2 p1 = point.position;
                        b2Vec2 p2 = p1 + k_axisScale * point.normal;
                        m_debugDraw.DrawSegment(p1, p2, new b2Color(0.9f, 0.9f, 0.9f));
                    }
                    else if (settings.drawContactForces == 1)
                    {
                        //b2Vec2 p1 = point->position;
                        //b2Vec2 p2 = p1 + k_forceScale * point->normalForce * point->normal;
                        //DrawSegment(p1, p2, b2Color(0.9f, 0.9f, 0.3f));
                    }

                    if (settings.drawFrictionForces == 1)
                    {
                        //b2Vec2 tangent = b2Cross(point->normal, 1.0f);
                        //b2Vec2 p1 = point->position;
                        //b2Vec2 p2 = p1 + k_forceScale * point->tangentForce * tangent;
                        //DrawSegment(p1, p2, b2Color(0.9f, 0.9f, 0.3f));
                    }
                }
            }

        }
Exemplo n.º 4
0
 public void Solve(ref b2Profile profile, b2TimeStep step, b2Vec2 gravity, bool allowSleep)
Exemplo n.º 5
0
        static void Run(Action iterCallback)
        {
            int iter = 0;
            long span = 0L;
            float step = (float)(TimeSpan.FromTicks(333333).TotalMilliseconds) / 1000f;
            Console.WriteLine("Cycle step = {0:F3} which is {1} fps", step, (int)(1f / step));
            int interval = 0;
#if PROFILING
            b2Profile m_maxProfile = new b2Profile();
            b2Profile m_totalProfile = new b2Profile();
            b2Profile aveProfile = new b2Profile();
#endif
            for (float dt = 0f; dt < simulat_time; )
            {
                long dtStart = DateTime.Now.Ticks;
                Update(_world, step);
                long duration = DateTime.Now.Ticks - dtStart;
                span += duration;
                dt += step;
                iter++;
                bool bdump = false;
                if (iterCallback != null)
                {
                    iterCallback();
                }
                if (iter == 30)
                {
                    interval++;
                    bdump = true;
                    //Dump(_world);
                    TimeSpan ts = new TimeSpan(span);
                    float fs = (float)ts.TotalMilliseconds / (float)iter;
                    Console.WriteLine("{2}: iteration time is {0:F3} ms avg. and is {1:F3} cycles", fs, fs / step, interval);
                    iter = 0;
                    span = 0L;
                    int bodyCount = _world.BodyCount;
                    int contactCount = _world.ContactManager.ContactCount;
                    int jointCount = _world.JointCount;
                    Console.WriteLine("{3}:bodies/contacts/joints = {0}/{1}/{2}", bodyCount, contactCount, jointCount, interval);

                    int proxyCount = _world.GetProxyCount();
                    int treeheight = _world.GetTreeHeight();
                    int balance = _world.GetTreeBalance();
                    float quality = _world.GetTreeQuality();
                    Console.WriteLine("{4}:proxies/height/balance/quality = {0}/{1}/{2}/{3:F3}", proxyCount, height, balance, quality, interval);
                    for (b2Body b = _world.BodyList; b != null; b = b.Next)
                    {
                        Console.WriteLine("Body: p={0:F3},{1:F3} v={2:F3},{3:F3}, w={4:F3}", b.Position.x, b.Position.y, b.LinearVelocity.x, b.LinearVelocity.y, b.AngularVelocity);
                    }
                }
#if PROFILING
                b2Profile p = _world.Profile;
                // Track maximum profile times
                {
                    m_maxProfile.step = Math.Max(m_maxProfile.step, p.step);
                    m_maxProfile.collide = Math.Max(m_maxProfile.collide, p.collide);
                    m_maxProfile.solve = Math.Max(m_maxProfile.solve, p.solve);
                    m_maxProfile.solveInit = Math.Max(m_maxProfile.solveInit, p.solveInit);
                    m_maxProfile.solveVelocity = Math.Max(m_maxProfile.solveVelocity, p.solveVelocity);
                    m_maxProfile.solvePosition = Math.Max(m_maxProfile.solvePosition, p.solvePosition);
                    m_maxProfile.solveTOI = Math.Max(m_maxProfile.solveTOI, p.solveTOI);
                    m_maxProfile.broadphase = Math.Max(m_maxProfile.broadphase, p.broadphase);

                    m_totalProfile.step += p.step;
                    m_totalProfile.collide += p.collide;
                    m_totalProfile.solve += p.solve;
                    m_totalProfile.solveInit += p.solveInit;
                    m_totalProfile.solveVelocity += p.solveVelocity;
                    m_totalProfile.solvePosition += p.solvePosition;
                    m_totalProfile.solveTOI += p.solveTOI;
                    m_totalProfile.broadphase += p.broadphase;
                }
                if (interval > 0)
                {
                    float scale = 1.0f / (float)interval;
                    aveProfile.step = scale * m_totalProfile.step;
                    aveProfile.collide = scale * m_totalProfile.collide;
                    aveProfile.solve = scale * m_totalProfile.solve;
                    aveProfile.solveInit = scale * m_totalProfile.solveInit;
                    aveProfile.solveVelocity = scale * m_totalProfile.solveVelocity;
                    aveProfile.solvePosition = scale * m_totalProfile.solvePosition;
                    aveProfile.solveTOI = scale * m_totalProfile.solveTOI;
                    aveProfile.broadphase = scale * m_totalProfile.broadphase;
                }
                if (bdump)
                {
                    Console.WriteLine("{3}:step [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.step, aveProfile.step, m_maxProfile.step,interval);
                    Console.WriteLine("{3}:collide [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.collide, aveProfile.collide, m_maxProfile.collide, interval);
                    Console.WriteLine("{3}:solve [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.solve, aveProfile.solve, m_maxProfile.solve, interval);
                    Console.WriteLine("{3}:solve init [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.solveInit, aveProfile.solveInit, m_maxProfile.solveInit, interval);
                    Console.WriteLine("{3}:solve velocity [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.solveVelocity, aveProfile.solveVelocity, m_maxProfile.solveVelocity, interval);
                    Console.WriteLine("{3}:solve position [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.solvePosition, aveProfile.solvePosition, m_maxProfile.solvePosition, interval);
                    Console.WriteLine("{3}:solveTOI [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.solveTOI, aveProfile.solveTOI, m_maxProfile.solveTOI, interval);
                    Console.WriteLine("{3}:broad-phase [ave] (max) = {0:F2} [{1:F2}] ({2:F2})", p.broadphase, aveProfile.broadphase, m_maxProfile.broadphase, interval);
                }
#endif
            }
#if PROFILING
            Dump(_world);
#endif
            Console.WriteLine("hit <enter> to exit");
            Console.ReadLine();
        }
Exemplo n.º 6
0
 public void Solve(ref b2Profile profile, b2TimeStep step, b2Vec2 gravity, bool allowSleep)
Exemplo n.º 7
0
        public void Solve(ref b2Profile profile, b2TimeStep step, b2Vec2 gravity, bool allowSleep)
        {
            b2Timer timer = new b2Timer();

            float h = step.dt;

            // Integrate velocities and apply damping. Initialize the body state.
            for (int i = 0; i < m_bodyCount; ++i)
            {
                b2Body b = m_bodies[i];

                b2Vec2 c = b.Sweep.c;
                float  a = b.Sweep.a;
                b2Vec2 v = b.LinearVelocity;
                float  w = b.AngularVelocity;

                // Store positions for continuous collision.
                b.Sweep.c0 = b.Sweep.c;
                b.Sweep.a0 = b.Sweep.a;

                if (b.BodyType == b2BodyType.b2_dynamicBody)
                {
                    // Integrate velocities.
                    v += h * (b.GravityScale * gravity + b.InvertedMass * b.Force);
                    w += h * b.InvertedI * b.Torque;

                    // Apply damping.
                    // ODE: dv/dt + c * v = 0
                    // Solution: v(t) = v0 * exp(-c * t)
                    // Time step: v(t + dt) = v0 * exp(-c * (t + dt)) = v0 * exp(-c * t) * exp(-c * dt) = v * exp(-c * dt)
                    // v2 = exp(-c * dt) * v1
                    // Taylor expansion:
                    // v2 = (1.0f - c * dt) * v1
                    v *= b2Math.b2Clamp(1.0f - h * b.LinearDamping, 0.0f, 1.0f);
                    w *= b2Math.b2Clamp(1.0f - h * b.AngularDamping, 0.0f, 1.0f);
                }

                m_positions[i].c  = c;
                m_positions[i].a  = a;
                m_velocities[i].v = v;
                m_velocities[i].w = w;
            }

            timer.Reset();

            // Solver data
            b2SolverData solverData = new b2SolverData();

            solverData.step       = step;
            solverData.positions  = m_positions;
            solverData.velocities = m_velocities;

            // Initialize velocity constraints.
            b2ContactSolverDef contactSolverDef;

            contactSolverDef.step       = step;
            contactSolverDef.contacts   = m_contacts;
            contactSolverDef.count      = m_contactCount;
            contactSolverDef.positions  = m_positions;
            contactSolverDef.velocities = m_velocities;

            b2ContactSolver contactSolver = new b2ContactSolver(contactSolverDef);

            contactSolver.InitializeVelocityConstraints();

            if (step.warmStarting)
            {
                contactSolver.WarmStart();
            }

            for (int i = 0; i < m_jointCount; ++i)
            {
                m_joints[i].InitVelocityConstraints(solverData);
            }

            profile.solveInit = timer.GetMilliseconds();

            // Solve velocity constraints
            timer.Reset();
            for (int i = 0; i < step.velocityIterations; ++i)
            {
                for (int j = 0; j < m_jointCount; ++j)
                {
                    m_joints[j].SolveVelocityConstraints(solverData);
                }

                contactSolver.SolveVelocityConstraints();
            }

            // Store impulses for warm starting
            contactSolver.StoreImpulses();
            profile.solveVelocity = timer.GetMilliseconds();

            // Integrate positions
            for (int i = 0; i < m_bodyCount; ++i)
            {
                b2Vec2 c = m_positions[i].c;
                float  a = m_positions[i].a;
                b2Vec2 v = m_velocities[i].v;
                float  w = m_velocities[i].w;

                // Check for large velocities
                b2Vec2 translation = h * v;
                if (b2Math.b2Dot(translation, translation) > b2Settings.b2_maxTranslationSquared)
                {
                    float ratio = b2Settings.b2_maxTranslation / translation.Length();
                    v *= ratio;
                }

                float rotation = h * w;
                if (rotation * rotation > b2Settings.b2_maxRotationSquared)
                {
                    float ratio = b2Settings.b2_maxRotation / Math.Abs(rotation);
                    w *= ratio;
                }

                // Integrate
                c += h * v;
                a += h * w;

                m_positions[i].c  = c;
                m_positions[i].a  = a;
                m_velocities[i].v = v;
                m_velocities[i].w = w;
            }

            // Solve position constraints
            timer.Reset();
            bool positionSolved = false;

            for (int i = 0; i < step.positionIterations; ++i)
            {
                bool contactsOkay = contactSolver.SolvePositionConstraints();

                bool jointsOkay = true;
                for (int i2 = 0; i2 < m_jointCount; ++i2)
                {
                    bool jointOkay = m_joints[i2].SolvePositionConstraints(solverData);
                    jointsOkay = jointsOkay && jointOkay;
                }

                if (contactsOkay && jointsOkay)
                {
                    // Exit early if the position errors are small.
                    positionSolved = true;
                    break;
                }
            }

            // Copy state buffers back to the bodies
            for (int i = 0; i < m_bodyCount; ++i)
            {
                b2Body body = m_bodies[i];
                body.Sweep.c         = m_positions[i].c;
                body.Sweep.a         = m_positions[i].a;
                body.LinearVelocity  = m_velocities[i].v;
                body.AngularVelocity = m_velocities[i].w;
                body.SynchronizeTransform();
            }

            profile.solvePosition = timer.GetMilliseconds();

            Report(contactSolver.m_velocityConstraints);

            if (allowSleep)
            {
                float minSleepTime = b2Settings.b2_maxFloat;

                float linTolSqr = b2Settings.b2_linearSleepTolerance * b2Settings.b2_linearSleepTolerance;
                float angTolSqr = b2Settings.b2_angularSleepTolerance * b2Settings.b2_angularSleepTolerance;

                for (int i = 0; i < m_bodyCount; ++i)
                {
                    b2Body b = m_bodies[i];
                    if (b.BodyType == b2BodyType.b2_staticBody)
                    {
                        continue;
                    }

                    if (!(b.BodyFlags.HasFlag(b2BodyFlags.e_autoSleepFlag)) ||
                        b.AngularVelocity * b.AngularVelocity > angTolSqr ||
                        b2Math.b2Dot(b.LinearVelocity, b.LinearVelocity) > linTolSqr)
                    {
                        b.SleepTime  = 0.0f;
                        minSleepTime = 0.0f;
                    }
                    else
                    {
                        b.SleepTime += h;
                        minSleepTime = Math.Min(minSleepTime, b.SleepTime);
                    }
                }

                if (minSleepTime >= b2Settings.b2_timeToSleep && positionSolved)
                {
                    for (int i = 0; i < m_bodyCount; ++i)
                    {
                        b2Body b = m_bodies[i];
                        b.SetAwake(false);
                    }
                }
            }
        }