Esempio n. 1
0
  /** Call this to draw shapes and other debug draw data. */
  public void drawDebugData() {
    if (m_debugDraw == null) {
      return;
    }

    int flags = m_debugDraw.getFlags();

    if ((flags & DebugDraw.e_shapeBit) == DebugDraw.e_shapeBit) {
      for (Body b = m_bodyList; b != null; b = b.getNext()) {
        xf.set(b.getTransform());
        for (Fixture f = b.getFixtureList(); f != null; f = f.getNext()) {
          if (b.isActive() == false) {
            color.set(0.5f, 0.5f, 0.3f);
            drawShape(f, xf, color);
          } else if (b.getType() == BodyType.STATIC) {
            color.set(0.5f, 0.9f, 0.3f);
            drawShape(f, xf, color);
          } else if (b.getType() == BodyType.KINEMATIC) {
            color.set(0.5f, 0.5f, 0.9f);
            drawShape(f, xf, color);
          } else if (b.isAwake() == false) {
            color.set(0.5f, 0.5f, 0.5f);
            drawShape(f, xf, color);
          } else {
            color.set(0.9f, 0.7f, 0.7f);
            drawShape(f, xf, color);
          }
        }
      }
    }

    if ((flags & DebugDraw.e_jointBit) == DebugDraw.e_jointBit) {
      for (Joint j = m_jointList; j != null; j = j.getNext()) {
        drawJoint(j);
      }
    }

    if ((flags & DebugDraw.e_pairBit) == DebugDraw.e_pairBit) {
      color.set(0.3f, 0.9f, 0.9f);
      for (Contact c = m_contactManager.m_contactList; c != null; c = c.getNext()) {
        // Fixture fixtureA = c.getFixtureA();
        // Fixture fixtureB = c.getFixtureB();
        //
        // fixtureA.getAABB(childIndex).getCenterToOut(cA);
        // fixtureB.getAABB().getCenterToOut(cB);
        //
        // m_debugDraw.drawSegment(cA, cB, color);
      }
    }

    if ((flags & DebugDraw.e_aabbBit) == DebugDraw.e_aabbBit) {
      color.set(0.9f, 0.3f, 0.9f);

      for (Body b = m_bodyList; b != null; b = b.getNext()) {
        if (b.isActive() == false) {
          continue;
        }

        for (Fixture f = b.getFixtureList(); f != null; f = f.getNext()) {

          for (int i = 0; i < f.m_proxyCount; ++i) {
            FixtureProxy proxy = f.m_proxies[i];
            AABB aabb = m_contactManager.m_broadPhase.getFatAABB(proxy.proxyId);
            Vec2[] vs = avs.get(4);
            vs[0].set(aabb.lowerBound.x, aabb.lowerBound.y);
            vs[1].set(aabb.upperBound.x, aabb.lowerBound.y);
            vs[2].set(aabb.upperBound.x, aabb.upperBound.y);
            vs[3].set(aabb.lowerBound.x, aabb.upperBound.y);

            m_debugDraw.drawPolygon(vs, 4, color);
          }
        }
      }
    }

    if ((flags & DebugDraw.e_centerOfMassBit) == DebugDraw.e_centerOfMassBit) {
      for (Body b = m_bodyList; b != null; b = b.getNext()) {
        xf.set(b.getTransform());
        xf.p.set(b.getWorldCenter());
        m_debugDraw.drawTransform(xf);
      }
    }

    if ((flags & DebugDraw.e_dynamicTreeBit) == DebugDraw.e_dynamicTreeBit) {
      m_contactManager.m_broadPhase.drawTree(m_debugDraw);
    }
  }
Esempio n. 2
0
  private void solve(TimeStep step) {
    m_profile.solveInit = 0;
    m_profile.solveVelocity = 0;
    m_profile.solvePosition = 0;

    // Size the island for the worst case.
    island.init(
        m_bodyCount,
        m_contactManager.m_contactCount,
        m_jointCount,
        m_contactManager.m_contactListener);

    // Clear all the island flags.
    for (Body b = m_bodyList; b != null; b = b.m_next) {
      b.m_flags &= ~Body.e_islandFlag;
    }
    for (Contact c = m_contactManager.m_contactList; c != null; c = c.m_next) {
      c.m_flags &= ~Contact.ISLAND_FLAG;
    }
    for (Joint j = m_jointList; j != null; j = j.m_next) {
      j.m_islandFlag = false;
    }

    // Build and simulate all awake islands.
    int stackSize = m_bodyCount;
    if (stack.length < stackSize) {
      stack = new Body[stackSize];
    }
    for (Body seed = m_bodyList; seed != null; seed = seed.m_next) {
      if ((seed.m_flags & Body.e_islandFlag) == Body.e_islandFlag) {
        continue;
      }

      if (seed.isAwake() == false || seed.isActive() == false) {
        continue;
      }

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

      // Reset island and stack.
      island.clear();
      int stackCount = 0;
      stack[stackCount++] = seed;
      seed.m_flags |= Body.e_islandFlag;

      // Perform a depth first search (DFS) on the constraint graph.
      while (stackCount > 0) {
        // Grab the next body off the stack and add it to the island.
        Body b = stack[--stackCount];
        assert (b.isActive() == true);
        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.getType() == BodyType.STATIC) {
          continue;
        }

        // Search all contacts connected to this body.
        for (ContactEdge ce = b.m_contactList; ce != null; ce = ce.next) {
          Contact contact = ce.contact;

          // Has this contact already been added to an island?
          if ((contact.m_flags & Contact.ISLAND_FLAG) == Contact.ISLAND_FLAG) {
            continue;
          }

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

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

          island.add(contact);
          contact.m_flags |= Contact.ISLAND_FLAG;

          Body other = ce.other;

          // Was the other body already added to this island?
          if ((other.m_flags & Body.e_islandFlag) == Body.e_islandFlag) {
            continue;
          }

          assert (stackCount < stackSize);
          stack[stackCount++] = other;
          other.m_flags |= Body.e_islandFlag;
        }

        // Search all joints connect to this body.
        for (JointEdge je = b.m_jointList; je != null; je = je.next) {
          if (je.joint.m_islandFlag == true) {
            continue;
          }

          Body 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.m_flags & Body.e_islandFlag) == Body.e_islandFlag) {
            continue;
          }

          assert (stackCount < stackSize);
          stack[stackCount++] = other;
          other.m_flags |= Body.e_islandFlag;
        }
      }
      island.solve(islandProfile, step, m_gravity, m_allowSleep);
      m_profile.solveInit += islandProfile.solveInit;
      m_profile.solveVelocity += islandProfile.solveVelocity;
      m_profile.solvePosition += islandProfile.solvePosition;

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

    broadphaseTimer.reset();
    // Synchronize fixtures, check for out of range bodies.
    for (Body b = m_bodyList; b != null; b = b.getNext()) {
      // If a body was not in an island then it did not move.
      if ((b.m_flags & Body.e_islandFlag) == 0) {
        continue;
      }

      if (b.getType() == BodyType.STATIC) {
        continue;
      }

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

    // Look for new contacts.
    m_contactManager.findNewContacts();
    m_profile.broadphase = broadphaseTimer.getMilliseconds();
  }
Esempio n. 3
0
  private void solveTOI(final TimeStep step) {

    final Island island = toiIsland;
    island.init(
        2 * Settings.maxTOIContacts,
        Settings.maxTOIContacts,
        0,
        m_contactManager.m_contactListener);
    if (m_stepComplete) {
      for (Body b = m_bodyList; b != null; b = b.m_next) {
        b.m_flags &= ~Body.e_islandFlag;
        b.m_sweep.alpha0 = 0.0f;
      }

      for (Contact c = m_contactManager.m_contactList; c != null; c = c.m_next) {
        // Invalidate TOI
        c.m_flags &= ~(Contact.TOI_FLAG | Contact.ISLAND_FLAG);
        c.m_toiCount = 0;
        c.m_toi = 1.0f;
      }
    }

    // Find TOI events and solve them.
    for (; ; ) {
      // Find the first TOI.
      Contact minContact = null;
      float minAlpha = 1.0f;

      for (Contact c = m_contactManager.m_contactList; c != null; c = c.m_next) {
        // Is this contact disabled?
        if (c.isEnabled() == false) {
          continue;
        }

        // Prevent excessive sub-stepping.
        if (c.m_toiCount > Settings.maxSubSteps) {
          continue;
        }

        float alpha = 1.0f;
        if ((c.m_flags & Contact.TOI_FLAG) != 0) {
          // This contact has a valid cached TOI.
          alpha = c.m_toi;
        } else {
          Fixture fA = c.getFixtureA();
          Fixture fB = c.getFixtureB();

          // Is there a sensor?
          if (fA.isSensor() || fB.isSensor()) {
            continue;
          }

          Body bA = fA.getBody();
          Body bB = fB.getBody();

          BodyType typeA = bA.m_type;
          BodyType typeB = bB.m_type;
          assert (typeA == BodyType.DYNAMIC || typeB == BodyType.DYNAMIC);

          boolean activeA = bA.isAwake() && typeA != BodyType.STATIC;
          boolean activeB = bB.isAwake() && typeB != BodyType.STATIC;

          // Is at least one body active (awake and dynamic or kinematic)?
          if (activeA == false && activeB == false) {
            continue;
          }

          boolean collideA = bA.isBullet() || typeA != BodyType.DYNAMIC;
          boolean collideB = bB.isBullet() || typeB != BodyType.DYNAMIC;

          // Are these two non-bullet dynamic bodies?
          if (collideA == false && collideB == false) {
            continue;
          }

          // Compute the TOI for this contact.
          // Put the sweeps onto the same time interval.
          float alpha0 = bA.m_sweep.alpha0;

          if (bA.m_sweep.alpha0 < bB.m_sweep.alpha0) {
            alpha0 = bB.m_sweep.alpha0;
            bA.m_sweep.advance(alpha0);
          } else if (bB.m_sweep.alpha0 < bA.m_sweep.alpha0) {
            alpha0 = bA.m_sweep.alpha0;
            bB.m_sweep.advance(alpha0);
          }

          assert (alpha0 < 1.0f);

          int indexA = c.getChildIndexA();
          int indexB = c.getChildIndexB();

          // Compute the time of impact in interval [0, minTOI]
          final TOIInput input = toiInput;
          input.proxyA.set(fA.getShape(), indexA);
          input.proxyB.set(fB.getShape(), indexB);
          input.sweepA.set(bA.m_sweep);
          input.sweepB.set(bB.m_sweep);
          input.tMax = 1.0f;

          pool.getTimeOfImpact().timeOfImpact(toiOutput, input);

          // Beta is the fraction of the remaining portion of the .
          float beta = toiOutput.t;
          if (toiOutput.state == TOIOutputState.TOUCHING) {
            alpha = MathUtils.min(alpha0 + (1.0f - alpha0) * beta, 1.0f);
          } else {
            alpha = 1.0f;
          }

          c.m_toi = alpha;
          c.m_flags |= Contact.TOI_FLAG;
        }

        if (alpha < minAlpha) {
          // This is the minimum TOI found so far.
          minContact = c;
          minAlpha = alpha;
        }
      }

      if (minContact == null || 1.0f - 10.0f * Settings.EPSILON < minAlpha) {
        // No more TOI events. Done!
        m_stepComplete = true;
        break;
      }

      // Advance the bodies to the TOI.
      Fixture fA = minContact.getFixtureA();
      Fixture fB = minContact.getFixtureB();
      Body bA = fA.getBody();
      Body bB = fB.getBody();

      backup1.set(bA.m_sweep);
      backup2.set(bB.m_sweep);

      bA.advance(minAlpha);
      bB.advance(minAlpha);

      // The TOI contact likely has some new contact points.
      minContact.update(m_contactManager.m_contactListener);
      minContact.m_flags &= ~Contact.TOI_FLAG;
      ++minContact.m_toiCount;

      // Is the contact solid?
      if (minContact.isEnabled() == false || minContact.isTouching() == false) {
        // Restore the sweeps.
        minContact.setEnabled(false);
        bA.m_sweep.set(backup1);
        bB.m_sweep.set(backup2);
        bA.synchronizeTransform();
        bB.synchronizeTransform();
        continue;
      }

      bA.setAwake(true);
      bB.setAwake(true);

      // Build the island
      island.clear();
      island.add(bA);
      island.add(bB);
      island.add(minContact);

      bA.m_flags |= Body.e_islandFlag;
      bB.m_flags |= Body.e_islandFlag;
      minContact.m_flags |= Contact.ISLAND_FLAG;

      // Get contacts on bodyA and bodyB.
      tempBodies[0] = bA;
      tempBodies[1] = bB;
      for (int i = 0; i < 2; ++i) {
        Body body = tempBodies[i];
        if (body.m_type == BodyType.DYNAMIC) {
          for (ContactEdge ce = body.m_contactList; ce != null; ce = ce.next) {
            if (island.m_bodyCount == island.m_bodyCapacity) {
              break;
            }

            if (island.m_contactCount == island.m_contactCapacity) {
              break;
            }

            Contact contact = ce.contact;

            // Has this contact already been added to the island?
            if ((contact.m_flags & Contact.ISLAND_FLAG) != 0) {
              continue;
            }

            // Only add static, kinematic, or bullet bodies.
            Body other = ce.other;
            if (other.m_type == BodyType.DYNAMIC
                && body.isBullet() == false
                && other.isBullet() == false) {
              continue;
            }

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

            // Tentatively advance the body to the TOI.
            backup1.set(other.m_sweep);
            if ((other.m_flags & Body.e_islandFlag) == 0) {
              other.advance(minAlpha);
            }

            // Update the contact points
            contact.update(m_contactManager.m_contactListener);

            // Was the contact disabled by the user?
            if (contact.isEnabled() == false) {
              other.m_sweep.set(backup1);
              other.synchronizeTransform();
              continue;
            }

            // Are there contact points?
            if (contact.isTouching() == false) {
              other.m_sweep.set(backup1);
              other.synchronizeTransform();
              continue;
            }

            // Add the contact to the island
            contact.m_flags |= Contact.ISLAND_FLAG;
            island.add(contact);

            // Has the other body already been added to the island?
            if ((other.m_flags & Body.e_islandFlag) != 0) {
              continue;
            }

            // Add the other body to the island.
            other.m_flags |= Body.e_islandFlag;

            if (other.m_type != BodyType.STATIC) {
              other.setAwake(true);
            }

            island.add(other);
          }
        }
      }

      subStep.dt = (1.0f - minAlpha) * step.dt;
      subStep.inv_dt = 1.0f / subStep.dt;
      subStep.dtRatio = 1.0f;
      subStep.positionIterations = 20;
      subStep.velocityIterations = step.velocityIterations;
      subStep.warmStarting = false;
      island.solveTOI(subStep, bA.m_islandIndex, bB.m_islandIndex);

      // Reset island flags and synchronize broad-phase proxies.
      for (int i = 0; i < island.m_bodyCount; ++i) {
        Body body = island.m_bodies[i];
        body.m_flags &= ~Body.e_islandFlag;

        if (body.m_type != BodyType.DYNAMIC) {
          continue;
        }

        body.synchronizeFixtures();

        // Invalidate all contact TOIs on this displaced body.
        for (ContactEdge ce = body.m_contactList; ce != null; ce = ce.next) {
          ce.contact.m_flags &= ~(Contact.TOI_FLAG | Contact.ISLAND_FLAG);
        }
      }

      // Commit fixture proxy movements to the broad-phase so that new contacts are created.
      // Also, some contacts can be destroyed.
      m_contactManager.findNewContacts();

      if (m_subStepping) {
        m_stepComplete = false;
        break;
      }
    }
  }