2010-09-14 14:47:12 +08:00
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/*
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2011-11-25 18:30:27 +08:00
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* Copyright (c) 2006-2007 Erin Catto http://www.box2d.org
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2010-09-14 14:47:12 +08:00
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*
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* This software is provided 'as-is', without any express or implied
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* warranty. In no event will the authors be held liable for any damages
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* arising from the use of this software.
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* Permission is granted to anyone to use this software for any purpose,
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* including commercial applications, and to alter it and redistribute it
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* freely, subject to the following restrictions:
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* 1. The origin of this software must not be misrepresented; you must not
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* claim that you wrote the original software. If you use this software
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* in a product, an acknowledgment in the product documentation would be
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* appreciated but is not required.
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* 2. Altered source versions must be plainly marked as such, and must not be
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* misrepresented as being the original software.
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* 3. This notice may not be removed or altered from any source distribution.
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*/
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#include <Box2D/Dynamics/Joints/b2MouseJoint.h>
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#include <Box2D/Dynamics/b2Body.h>
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#include <Box2D/Dynamics/b2TimeStep.h>
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// p = attached point, m = mouse point
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// C = p - m
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// Cdot = v
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// = v + cross(w, r)
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// J = [I r_skew]
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// Identity used:
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// w k % (rx i + ry j) = w * (-ry i + rx j)
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b2MouseJoint::b2MouseJoint(const b2MouseJointDef* def)
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: b2Joint(def)
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{
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b2Assert(def->target.IsValid());
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b2Assert(b2IsValid(def->maxForce) && def->maxForce >= 0.0f);
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b2Assert(b2IsValid(def->frequencyHz) && def->frequencyHz >= 0.0f);
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b2Assert(b2IsValid(def->dampingRatio) && def->dampingRatio >= 0.0f);
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2011-11-25 18:30:27 +08:00
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m_targetA = def->target;
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m_localAnchorB = b2MulT(m_bodyB->GetTransform(), m_targetA);
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2010-09-14 14:47:12 +08:00
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m_maxForce = def->maxForce;
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m_impulse.SetZero();
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m_frequencyHz = def->frequencyHz;
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m_dampingRatio = def->dampingRatio;
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m_beta = 0.0f;
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m_gamma = 0.0f;
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}
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void b2MouseJoint::SetTarget(const b2Vec2& target)
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{
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if (m_bodyB->IsAwake() == false)
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{
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m_bodyB->SetAwake(true);
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}
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2011-11-25 18:30:27 +08:00
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m_targetA = target;
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2010-09-14 14:47:12 +08:00
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}
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const b2Vec2& b2MouseJoint::GetTarget() const
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{
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2011-11-25 18:30:27 +08:00
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return m_targetA;
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2010-09-14 14:47:12 +08:00
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}
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void b2MouseJoint::SetMaxForce(float32 force)
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{
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m_maxForce = force;
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}
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float32 b2MouseJoint::GetMaxForce() const
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{
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return m_maxForce;
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}
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void b2MouseJoint::SetFrequency(float32 hz)
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{
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m_frequencyHz = hz;
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}
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float32 b2MouseJoint::GetFrequency() const
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{
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return m_frequencyHz;
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}
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void b2MouseJoint::SetDampingRatio(float32 ratio)
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{
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m_dampingRatio = ratio;
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}
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float32 b2MouseJoint::GetDampingRatio() const
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{
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return m_dampingRatio;
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}
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2011-11-25 18:30:27 +08:00
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void b2MouseJoint::InitVelocityConstraints(const b2SolverData& data)
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{
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2011-11-25 18:30:27 +08:00
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m_indexB = m_bodyB->m_islandIndex;
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m_localCenterB = m_bodyB->m_sweep.localCenter;
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m_invMassB = m_bodyB->m_invMass;
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m_invIB = m_bodyB->m_invI;
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2010-09-14 14:47:12 +08:00
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2011-11-25 18:30:27 +08:00
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b2Vec2 cB = data.positions[m_indexB].c;
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float32 aB = data.positions[m_indexB].a;
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b2Vec2 vB = data.velocities[m_indexB].v;
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float32 wB = data.velocities[m_indexB].w;
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b2Rot qB(aB);
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float32 mass = m_bodyB->GetMass();
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2010-09-14 14:47:12 +08:00
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// Frequency
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float32 omega = 2.0f * b2_pi * m_frequencyHz;
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// Damping coefficient
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float32 d = 2.0f * mass * m_dampingRatio * omega;
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// Spring stiffness
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float32 k = mass * (omega * omega);
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// magic formulas
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// gamma has units of inverse mass.
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// beta has units of inverse time.
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2011-11-25 18:30:27 +08:00
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float32 h = data.step.dt;
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b2Assert(d + h * k > b2_epsilon);
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m_gamma = h * (d + h * k);
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2010-09-14 14:47:12 +08:00
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if (m_gamma != 0.0f)
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{
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m_gamma = 1.0f / m_gamma;
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}
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2011-11-25 18:30:27 +08:00
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m_beta = h * k * m_gamma;
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// Compute the effective mass matrix.
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2011-11-25 18:30:27 +08:00
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m_rB = b2Mul(qB, m_localAnchorB - m_localCenterB);
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2010-09-14 14:47:12 +08:00
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// K = [(1/m1 + 1/m2) * eye(2) - skew(r1) * invI1 * skew(r1) - skew(r2) * invI2 * skew(r2)]
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// = [1/m1+1/m2 0 ] + invI1 * [r1.y*r1.y -r1.x*r1.y] + invI2 * [r1.y*r1.y -r1.x*r1.y]
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// [ 0 1/m1+1/m2] [-r1.x*r1.y r1.x*r1.x] [-r1.x*r1.y r1.x*r1.x]
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b2Mat22 K;
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K.ex.x = m_invMassB + m_invIB * m_rB.y * m_rB.y + m_gamma;
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K.ex.y = -m_invIB * m_rB.x * m_rB.y;
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K.ey.x = K.ex.y;
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K.ey.y = m_invMassB + m_invIB * m_rB.x * m_rB.x + m_gamma;
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m_mass = K.GetInverse();
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2011-11-25 18:30:27 +08:00
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m_C = cB + m_rB - m_targetA;
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m_C *= m_beta;
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2010-09-14 14:47:12 +08:00
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// Cheat with some damping
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2011-11-25 18:30:27 +08:00
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wB *= 0.98f;
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2010-09-14 14:47:12 +08:00
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2011-11-25 18:30:27 +08:00
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if (data.step.warmStarting)
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{
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m_impulse *= data.step.dtRatio;
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vB += m_invMassB * m_impulse;
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wB += m_invIB * b2Cross(m_rB, m_impulse);
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}
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else
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{
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m_impulse.SetZero();
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}
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data.velocities[m_indexB].v = vB;
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data.velocities[m_indexB].w = wB;
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2010-09-14 14:47:12 +08:00
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}
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2011-11-25 18:30:27 +08:00
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void b2MouseJoint::SolveVelocityConstraints(const b2SolverData& data)
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{
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b2Vec2 vB = data.velocities[m_indexB].v;
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float32 wB = data.velocities[m_indexB].w;
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// Cdot = v + cross(w, r)
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2011-11-25 18:30:27 +08:00
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b2Vec2 Cdot = vB + b2Cross(wB, m_rB);
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b2Vec2 impulse = b2Mul(m_mass, -(Cdot + m_C + m_gamma * m_impulse));
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b2Vec2 oldImpulse = m_impulse;
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m_impulse += impulse;
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2011-11-25 18:30:27 +08:00
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float32 maxImpulse = data.step.dt * m_maxForce;
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if (m_impulse.LengthSquared() > maxImpulse * maxImpulse)
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{
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m_impulse *= maxImpulse / m_impulse.Length();
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}
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impulse = m_impulse - oldImpulse;
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2011-11-25 18:30:27 +08:00
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vB += m_invMassB * impulse;
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wB += m_invIB * b2Cross(m_rB, impulse);
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data.velocities[m_indexB].v = vB;
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data.velocities[m_indexB].w = wB;
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}
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bool b2MouseJoint::SolvePositionConstraints(const b2SolverData& data)
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{
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B2_NOT_USED(data);
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return true;
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2010-09-14 14:47:12 +08:00
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}
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b2Vec2 b2MouseJoint::GetAnchorA() const
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{
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2011-11-25 18:30:27 +08:00
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return m_targetA;
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2010-09-14 14:47:12 +08:00
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}
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b2Vec2 b2MouseJoint::GetAnchorB() const
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{
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2011-11-25 18:30:27 +08:00
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return m_bodyB->GetWorldPoint(m_localAnchorB);
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2010-09-14 14:47:12 +08:00
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}
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b2Vec2 b2MouseJoint::GetReactionForce(float32 inv_dt) const
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{
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return inv_dt * m_impulse;
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}
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float32 b2MouseJoint::GetReactionTorque(float32 inv_dt) const
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{
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return inv_dt * 0.0f;
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}
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