fix macOS build (following Projucer changes made in Windows, which removed /Applications/JUCE/modules from its headers). move JUCE headers under source control, so that Windows and macOS can both build against same version of JUCE. remove AUv3 target (I think it's an iOS thing, so it will never work with this macOS fluidsynth dylib).

modules/juce_box2d/box2d/Dynamics/Joints/b2MouseJoint.cpp

@@ -0,0 +1,217 @@
+/*
+* Copyright (c) 2006-2007 Erin Catto http://www.box2d.org
+*
+* This software is provided 'as-is', without any express or implied
+* warranty.  In no event will the authors be held liable for any damages
+* arising from the use of this software.
+* Permission is granted to anyone to use this software for any purpose,
+* including commercial applications, and to alter it and redistribute it
+* freely, subject to the following restrictions:
+* 1. The origin of this software must not be misrepresented; you must not
+* claim that you wrote the original software. If you use this software
+* in a product, an acknowledgment in the product documentation would be
+* appreciated but is not required.
+* 2. Altered source versions must be plainly marked as such, and must not be
+* misrepresented as being the original software.
+* 3. This notice may not be removed or altered from any source distribution.
+*/
+
+#include "b2MouseJoint.h"
+#include "../b2Body.h"
+#include "../b2TimeStep.h"
+
+// p = attached point, m = mouse point
+// C = p - m
+// Cdot = v
+//      = v + cross(w, r)
+// J = [I r_skew]
+// Identity used:
+// w k % (rx i + ry j) = w * (-ry i + rx j)
+
+b2MouseJoint::b2MouseJoint(const b2MouseJointDef* def)
+: b2Joint(def)
+{
+	b2Assert(def->target.IsValid());
+	b2Assert(b2IsValid(def->maxForce) && def->maxForce >= 0.0f);
+	b2Assert(b2IsValid(def->frequencyHz) && def->frequencyHz >= 0.0f);
+	b2Assert(b2IsValid(def->dampingRatio) && def->dampingRatio >= 0.0f);
+
+	m_targetA = def->target;
+	m_localAnchorB = b2MulT(m_bodyB->GetTransform(), m_targetA);
+
+	m_maxForce = def->maxForce;
+	m_impulse.SetZero();
+
+	m_frequencyHz = def->frequencyHz;
+	m_dampingRatio = def->dampingRatio;
+
+	m_beta = 0.0f;
+	m_gamma = 0.0f;
+}
+
+void b2MouseJoint::SetTarget(const b2Vec2& target)
+{
+	if (m_bodyB->IsAwake() == false)
+	{
+		m_bodyB->SetAwake(true);
+	}
+	m_targetA = target;
+}
+
+const b2Vec2& b2MouseJoint::GetTarget() const
+{
+	return m_targetA;
+}
+
+void b2MouseJoint::SetMaxForce(float32 force)
+{
+	m_maxForce = force;
+}
+
+float32 b2MouseJoint::GetMaxForce() const
+{
+	return m_maxForce;
+}
+
+void b2MouseJoint::SetFrequency(float32 hz)
+{
+	m_frequencyHz = hz;
+}
+
+float32 b2MouseJoint::GetFrequency() const
+{
+	return m_frequencyHz;
+}
+
+void b2MouseJoint::SetDampingRatio(float32 ratio)
+{
+	m_dampingRatio = ratio;
+}
+
+float32 b2MouseJoint::GetDampingRatio() const
+{
+	return m_dampingRatio;
+}
+
+void b2MouseJoint::InitVelocityConstraints(const b2SolverData& data)
+{
+	m_indexB = m_bodyB->m_islandIndex;
+	m_localCenterB = m_bodyB->m_sweep.localCenter;
+	m_invMassB = m_bodyB->m_invMass;
+	m_invIB = m_bodyB->m_invI;
+
+	b2Vec2 cB = data.positions[m_indexB].c;
+	float32 aB = data.positions[m_indexB].a;
+	b2Vec2 vB = data.velocities[m_indexB].v;
+	float32 wB = data.velocities[m_indexB].w;
+
+	b2Rot qB(aB);
+
+	float32 mass = m_bodyB->GetMass();
+
+	// Frequency
+	float32 omega = 2.0f * b2_pi * m_frequencyHz;
+
+	// Damping coefficient
+	float32 d = 2.0f * mass * m_dampingRatio * omega;
+
+	// Spring stiffness
+	float32 k = mass * (omega * omega);
+
+	// magic formulas
+	// gamma has units of inverse mass.
+	// beta has units of inverse time.
+	float32 h = data.step.dt;
+	b2Assert(d + h * k > b2_epsilon);
+	m_gamma = h * (d + h * k);
+	if (m_gamma != 0.0f)
+	{
+		m_gamma = 1.0f / m_gamma;
+	}
+	m_beta = h * k * m_gamma;
+
+	// Compute the effective mass matrix.
+	m_rB = b2Mul(qB, m_localAnchorB - m_localCenterB);
+
+	// K    = [(1/m1 + 1/m2) * eye(2) - skew(r1) * invI1 * skew(r1) - skew(r2) * invI2 * skew(r2)]
+	//      = [1/m1+1/m2     0    ] + invI1 * [r1.y*r1.y -r1.x*r1.y] + invI2 * [r1.y*r1.y -r1.x*r1.y]
+	//        [    0     1/m1+1/m2]           [-r1.x*r1.y r1.x*r1.x]           [-r1.x*r1.y r1.x*r1.x]
+	b2Mat22 K;
+	K.ex.x = m_invMassB + m_invIB * m_rB.y * m_rB.y + m_gamma;
+	K.ex.y = -m_invIB * m_rB.x * m_rB.y;
+	K.ey.x = K.ex.y;
+	K.ey.y = m_invMassB + m_invIB * m_rB.x * m_rB.x + m_gamma;
+
+	m_mass = K.GetInverse();
+
+	m_C = cB + m_rB - m_targetA;
+	m_C *= m_beta;
+
+	// Cheat with some damping
+	wB *= 0.98f;
+
+	if (data.step.warmStarting)
+	{
+		m_impulse *= data.step.dtRatio;
+		vB += m_invMassB * m_impulse;
+		wB += m_invIB * b2Cross(m_rB, m_impulse);
+	}
+	else
+	{
+		m_impulse.SetZero();
+	}
+
+	data.velocities[m_indexB].v = vB;
+	data.velocities[m_indexB].w = wB;
+}
+
+void b2MouseJoint::SolveVelocityConstraints(const b2SolverData& data)
+{
+	b2Vec2 vB = data.velocities[m_indexB].v;
+	float32 wB = data.velocities[m_indexB].w;
+
+	// Cdot = v + cross(w, r)
+	b2Vec2 Cdot = vB + b2Cross(wB, m_rB);
+	b2Vec2 impulse = b2Mul(m_mass, -(Cdot + m_C + m_gamma * m_impulse));
+
+	b2Vec2 oldImpulse = m_impulse;
+	m_impulse += impulse;
+	float32 maxImpulse = data.step.dt * m_maxForce;
+	if (m_impulse.LengthSquared() > maxImpulse * maxImpulse)
+	{
+		m_impulse *= maxImpulse / m_impulse.Length();
+	}
+	impulse = m_impulse - oldImpulse;
+
+	vB += m_invMassB * impulse;
+	wB += m_invIB * b2Cross(m_rB, impulse);
+
+	data.velocities[m_indexB].v = vB;
+	data.velocities[m_indexB].w = wB;
+}
+
+bool b2MouseJoint::SolvePositionConstraints(const b2SolverData& data)
+{
+	B2_NOT_USED(data);
+	return true;
+}
+
+b2Vec2 b2MouseJoint::GetAnchorA() const
+{
+	return m_targetA;
+}
+
+b2Vec2 b2MouseJoint::GetAnchorB() const
+{
+	return m_bodyB->GetWorldPoint(m_localAnchorB);
+}
+
+b2Vec2 b2MouseJoint::GetReactionForce(float32 inv_dt) const
+{
+	return inv_dt * m_impulse;
+}
+
+float32 b2MouseJoint::GetReactionTorque(float32 inv_dt) const
+{
+	return inv_dt * 0.0f;
+}