cache PhysicsJoint* attributes before PhysicsWorld update (#19108)

* use cache

* add unlikely

* fix pbxproj file

* remove unused methods

build/cocos2d_tests.xcodeproj/project.pbxproj

@@ -7723,7 +7723,7 @@
 				GCC_WARN_64_TO_32_BIT_CONVERSION = YES;
 				INFOPLIST_FILE = "$(SRCROOT)/../tests/cpp-tests/proj.mac/Info.plist";
 				LD_RUNPATH_SEARCH_PATHS = "@loader_path/../Frameworks";
-				USER_HEADER_SEARCH_PATHS = "$(inherited) $(SRCROOT)/../external/glfw3/include/mac $(SRCROOT)/../external/freetype2/include/mac/freetype2";
+				USER_HEADER_SEARCH_PATHS = "$(inherited) $(SRCROOT)/../external/glfw3/include/mac $(SRCROOT)/../external/freetype2/include/mac/freetype2 $(SRCROOT)/../tests/cpp-tests/Classes";
 			};
 			name = Debug;
 		};
@@ -7739,7 +7739,7 @@
 				GCC_WARN_64_TO_32_BIT_CONVERSION = YES;
 				INFOPLIST_FILE = "$(SRCROOT)/../tests/cpp-tests/proj.mac/Info.plist";
 				LD_RUNPATH_SEARCH_PATHS = "@loader_path/../Frameworks";
-				USER_HEADER_SEARCH_PATHS = "$(inherited) $(SRCROOT)/../external/glfw3/include/mac $(SRCROOT)/../external/freetype2/include/mac/freetype2";
+				USER_HEADER_SEARCH_PATHS = "$(inherited) $(SRCROOT)/../external/glfw3/include/mac $(SRCROOT)/../external/freetype2/include/mac/freetype2 $(SRCROOT)/../tests/cpp-tests/Classes";
 				VALIDATE_PRODUCT = YES;
 			};
 			name = Release;

cocos/physics/CCPhysicsJoint.cpp

@@ -34,6 +34,83 @@
 
 NS_CC_BEGIN
 
+template<typename T>
+class Optional {
+
+public:
+    Optional() {}
+    Optional(T d) :_isSet(true), _data(d) {}
+    Optional(const Optional &t) : _isSet(t._isSet), _data(t._data) {}
+
+    //bool isNull()       const { return !_isSet; }
+    //bool isDefineded()  const { return _isSet; }
+    //bool isEmpty()      const { return !_isSet; }
+
+    T    get()          const { CCASSERT(_isSet, "data should be set!"); return _data; }
+    void set(T d)             { _isSet = true; _data = d; }
+
+private:
+    bool _isSet = false;
+    T _data;
+};
+
+class WriteCache {
+public:
+    Optional<Vec2>  _grooveA;
+    Optional<Vec2>  _grooveB;
+    Optional<Vec2>  _anchr1;
+    Optional<Vec2>  _anchr2;
+    Optional<float> _min;
+    Optional<float> _max;
+    Optional<float> _distance;
+    Optional<float> _restLength;
+    Optional<float> _restAngle;
+    Optional<float> _stiffness;
+    Optional<float> _damping;
+    Optional<float> _angle;
+    Optional<float> _phase;
+    Optional<float> _ratchet;
+    Optional<float> _ratio;
+    Optional<float> _rate;
+};
+
+#if (defined(__GNUC__) && __GNUC__ >= 4) || defined(__clang__)
+#define LIKELY(x)   (__builtin_expect((x), 1))
+#define UNLIKELY(x) (__builtin_expect((x), 0))
+#else
+#define LIKELY(x)   (x)
+#define UNLIKELY(x) (x)
+#endif
+
+
+#define CC_PJOINT_CACHE_READ(field)         \
+    do {                                    \
+    if(UNLIKELY(_initDirty))                \
+    {                                       \
+        return _writeCache->field.get();    \
+    }                                       \
+    }while(0)
+
+
+
+#define CC_PJOINT_CACHE_WRITE2(field, method, arg, convertedArg)    \
+    do {                                                            \
+    if(UNLIKELY(_initDirty))                                        \
+    {                                                               \
+        _writeCache->field.set(arg);                                \
+        delay([this, arg]() {                                       \
+            method(_cpConstraints.front(), convertedArg);           \
+        });                                                         \
+    }                                                               \
+    else                                                            \
+    {                                                               \
+        method(_cpConstraints.front(), convertedArg);               \
+    }                                                               \
+    }while(0)
+
+#define CC_PJOINT_CACHE_WRITE(field, method, arg)   \
+    CC_PJOINT_CACHE_WRITE2(field, method, arg, arg)
+
 PhysicsJoint::PhysicsJoint()
 : _bodyA(nullptr)
 , _bodyB(nullptr)
@@ -45,7 +122,7 @@ PhysicsJoint::PhysicsJoint()
 , _maxForce(PHYSICS_INFINITY)
 , _initDirty(true)
 {
-
+    _writeCache = new WriteCache();
 }
 
 PhysicsJoint::~PhysicsJoint()
@@ -58,6 +135,8 @@ PhysicsJoint::~PhysicsJoint()
         cpConstraintFree(joint);
     }
     _cpConstraints.clear();
+
+    delete _writeCache;
 }
 
 bool PhysicsJoint::init(cocos2d::PhysicsBody *a, cocos2d::PhysicsBody *b)
@@ -99,6 +178,15 @@ bool PhysicsJoint::initJoint()
     return ret;
 }
 
+void PhysicsJoint::flushDelayTasks()
+{
+    for (auto tsk : _delayTasks)
+    {
+        tsk();
+    }
+    _delayTasks.clear();
+}
+
 void PhysicsJoint::setEnable(bool enable)
 {
     if (_enable != enable)
@@ -137,11 +225,24 @@ void PhysicsJoint::removeFormWorld()
 
 void PhysicsJoint::setMaxForce(float force)
 {
+    if(_initDirty)
+    {
+        delay([this, force]() {
             _maxForce = force;
             for (auto joint : _cpConstraints)
             {
                 cpConstraintSetMaxForce(joint, force);
             }
+        });
+    }
+    else
+    {
+        _maxForce = force;
+        for (auto joint : _cpConstraints)
+        {
+            cpConstraintSetMaxForce(joint, force);
+        }
+    }
 }
 
 PhysicsJointFixed* PhysicsJointFixed::construct(PhysicsBody* a, PhysicsBody* b, const Vec2& anchr)
@@ -285,42 +386,46 @@ bool PhysicsJointLimit::createConstraints()
 
 float PhysicsJointLimit::getMin() const
 {
+    CC_PJOINT_CACHE_READ(_min);
     return PhysicsHelper::cpfloat2float(cpSlideJointGetMin(_cpConstraints.front()));
 }
 
 void PhysicsJointLimit::setMin(float min)
 {
-    cpSlideJointSetMin(_cpConstraints.front(), min);
+    CC_PJOINT_CACHE_WRITE(_min, cpSlideJointSetMin, min);
 }
 
 float PhysicsJointLimit::getMax() const
 {
+    CC_PJOINT_CACHE_READ(_max);
     return PhysicsHelper::cpfloat2float(cpSlideJointGetMax(_cpConstraints.front()));
 }
 
 void PhysicsJointLimit::setMax(float max)
 {
-    cpSlideJointSetMax(_cpConstraints.front(), max);
+    CC_PJOINT_CACHE_WRITE(_max, cpSlideJointSetMax, max);
 }
 
 Vec2 PhysicsJointLimit::getAnchr1() const
 {
+    CC_PJOINT_CACHE_READ(_anchr1);
     return PhysicsHelper::cpv2point(cpSlideJointGetAnchorA(_cpConstraints.front()));
 }
 
 void PhysicsJointLimit::setAnchr1(const Vec2& anchr)
 {
-    cpSlideJointSetAnchorA(_cpConstraints.front(), PhysicsHelper::point2cpv(anchr));
+    CC_PJOINT_CACHE_WRITE2(_anchr1, cpSlideJointSetAnchorA, anchr, PhysicsHelper::point2cpv(anchr));
 }
 
 Vec2 PhysicsJointLimit::getAnchr2() const
 {
+    CC_PJOINT_CACHE_READ(_anchr2);
     return PhysicsHelper::cpv2point(cpSlideJointGetAnchorB(_cpConstraints.front()));
 }
 
 void PhysicsJointLimit::setAnchr2(const Vec2& anchr)
 {
-    cpSlideJointSetAnchorB(_cpConstraints.front(), PhysicsHelper::point2cpv(anchr));
+    CC_PJOINT_CACHE_WRITE2(_anchr2, cpSlideJointSetAnchorB, anchr, PhysicsHelper::point2cpv(anchr));
 }
 
 PhysicsJointDistance* PhysicsJointDistance::construct(PhysicsBody* a, PhysicsBody* b, const Vec2& anchr1, const Vec2& anchr2)
@@ -358,12 +463,13 @@ bool PhysicsJointDistance::createConstraints()
 
 float PhysicsJointDistance::getDistance() const
 {
+    CC_PJOINT_CACHE_READ(_distance);
     return PhysicsHelper::cpfloat2float(cpPinJointGetDist(_cpConstraints.front()));
 }
 
 void PhysicsJointDistance::setDistance(float distance)
 {
-    cpPinJointSetDist(_cpConstraints.front(), distance);
+    CC_PJOINT_CACHE_WRITE(_distance, cpPinJointSetDist, distance);
 }
 
 PhysicsJointSpring* PhysicsJointSpring::construct(PhysicsBody* a, PhysicsBody* b, const Vec2& anchr1, const Vec2& anchr2, float stiffness, float damping)
@@ -406,52 +512,57 @@ bool PhysicsJointSpring::createConstraints()
 
 Vec2 PhysicsJointSpring::getAnchr1() const
 {
+    CC_PJOINT_CACHE_READ(_anchr1);
     return PhysicsHelper::cpv2point(cpDampedSpringGetAnchorA(_cpConstraints.front()));
 }
 
 void PhysicsJointSpring::setAnchr1(const Vec2& anchr)
 {
-    cpDampedSpringSetAnchorA(_cpConstraints.front(), PhysicsHelper::point2cpv(anchr));
+    CC_PJOINT_CACHE_WRITE2(_anchr1, cpDampedSpringSetAnchorA, anchr, PhysicsHelper::point2cpv(anchr));
 }
 
 Vec2 PhysicsJointSpring::getAnchr2() const
 {
+    CC_PJOINT_CACHE_READ(_anchr2);
     return PhysicsHelper::cpv2point(cpDampedSpringGetAnchorB(_cpConstraints.front()));
 }
 
 void PhysicsJointSpring::setAnchr2(const Vec2& anchr)
 {
-    cpDampedSpringSetAnchorB(_cpConstraints.front(), PhysicsHelper::point2cpv(anchr));
+    CC_PJOINT_CACHE_WRITE2(_anchr2, cpDampedSpringSetAnchorB, anchr, PhysicsHelper::point2cpv(anchr));
 }
 
 float PhysicsJointSpring::getRestLength() const
 {
+    CC_PJOINT_CACHE_READ(_restLength);
     return PhysicsHelper::cpfloat2float(cpDampedSpringGetRestLength(_cpConstraints.front()));
 }
 
 void PhysicsJointSpring::setRestLength(float restLength)
 {
-    cpDampedSpringSetRestLength(_cpConstraints.front(), restLength);
+    CC_PJOINT_CACHE_WRITE(_restLength, cpDampedSpringSetRestLength, restLength);
 }
 
 float PhysicsJointSpring::getStiffness() const
 {
+    CC_PJOINT_CACHE_READ(_stiffness);
     return PhysicsHelper::cpfloat2float(cpDampedSpringGetStiffness(_cpConstraints.front()));
 }
 
 void PhysicsJointSpring::setStiffness(float stiffness)
 {
-    cpDampedSpringSetStiffness(_cpConstraints.front(), stiffness);
+    CC_PJOINT_CACHE_WRITE(_stiffness, cpDampedSpringSetStiffness, stiffness);
 }
 
 float PhysicsJointSpring::getDamping() const
 {
+    CC_PJOINT_CACHE_READ(_damping);
     return PhysicsHelper::cpfloat2float(cpDampedSpringGetDamping(_cpConstraints.front()));
 }
 
 void PhysicsJointSpring::setDamping(float damping)
 {
-    cpDampedSpringSetDamping(_cpConstraints.front(), damping);
+    CC_PJOINT_CACHE_WRITE(_damping, cpDampedSpringSetDamping, damping);
 }
 
 PhysicsJointGroove* PhysicsJointGroove::construct(PhysicsBody* a, PhysicsBody* b, const Vec2& grooveA, const Vec2& grooveB, const Vec2& anchr2)
@@ -491,32 +602,35 @@ bool PhysicsJointGroove::createConstraints()
 
 Vec2 PhysicsJointGroove::getGrooveA() const
 {
+    CC_PJOINT_CACHE_READ(_grooveA);
     return PhysicsHelper::cpv2point(cpGrooveJointGetGrooveA(_cpConstraints.front()));
 }
 
 void PhysicsJointGroove::setGrooveA(const Vec2& grooveA)
 {
-    cpGrooveJointSetGrooveA(_cpConstraints.front(), PhysicsHelper::point2cpv(grooveA));
+    CC_PJOINT_CACHE_WRITE2(_grooveA, cpGrooveJointSetGrooveA, grooveA, PhysicsHelper::point2cpv(grooveA));
 }
 
 Vec2 PhysicsJointGroove::getGrooveB() const
 {
+    CC_PJOINT_CACHE_READ(_grooveB);
     return PhysicsHelper::cpv2point(cpGrooveJointGetGrooveB(_cpConstraints.front()));
 }
 
 void PhysicsJointGroove::setGrooveB(const Vec2& grooveB)
 {
-    cpGrooveJointSetGrooveB(_cpConstraints.front(), PhysicsHelper::point2cpv(grooveB));
+    CC_PJOINT_CACHE_WRITE2(_grooveB, cpGrooveJointSetGrooveB, grooveB, PhysicsHelper::point2cpv(grooveB));
 }
 
 Vec2 PhysicsJointGroove::getAnchr2() const
 {
+    CC_PJOINT_CACHE_READ(_anchr2);
     return PhysicsHelper::cpv2point(cpGrooveJointGetAnchorB(_cpConstraints.front()));
 }
 
 void PhysicsJointGroove::setAnchr2(const Vec2& anchr2)
 {
-    cpGrooveJointSetAnchorB(_cpConstraints.front(), PhysicsHelper::point2cpv(anchr2));
+    CC_PJOINT_CACHE_WRITE2(_anchr2, cpGrooveJointSetAnchorB, anchr2, PhysicsHelper::point2cpv(anchr2));
 }
 
 PhysicsJointRotarySpring* PhysicsJointRotarySpring::construct(PhysicsBody* a, PhysicsBody* b, float stiffness, float damping)
@@ -555,32 +669,35 @@ bool PhysicsJointRotarySpring::createConstraints()
 
 float PhysicsJointRotarySpring::getRestAngle() const
 {
+    CC_PJOINT_CACHE_READ(_restAngle);
     return PhysicsHelper::cpfloat2float(cpDampedRotarySpringGetRestAngle(_cpConstraints.front()));
 }
 
 void PhysicsJointRotarySpring::setRestAngle(float restAngle)
 {
-    cpDampedRotarySpringSetRestAngle(_cpConstraints.front(), restAngle);
+    CC_PJOINT_CACHE_WRITE(_restAngle, cpDampedRotarySpringSetRestAngle, restAngle);
 }
 
 float PhysicsJointRotarySpring::getStiffness() const
 {
+    CC_PJOINT_CACHE_READ(_stiffness);
     return PhysicsHelper::cpfloat2float(cpDampedRotarySpringGetStiffness(_cpConstraints.front()));
 }
 
 void PhysicsJointRotarySpring::setStiffness(float stiffness)
 {
-    cpDampedRotarySpringSetStiffness(_cpConstraints.front(), stiffness);
+    CC_PJOINT_CACHE_WRITE(_stiffness, cpDampedRotarySpringSetStiffness, stiffness);
 }
 
 float PhysicsJointRotarySpring::getDamping() const
 {
+    CC_PJOINT_CACHE_READ(_damping);
     return PhysicsHelper::cpfloat2float(cpDampedRotarySpringGetDamping(_cpConstraints.front()));
 }
 
 void PhysicsJointRotarySpring::setDamping(float damping)
 {
-    cpDampedRotarySpringSetDamping(_cpConstraints.front(), damping);
+    CC_PJOINT_CACHE_WRITE(_damping, cpDampedRotarySpringSetDamping, damping);
 }
 
 PhysicsJointRotaryLimit* PhysicsJointRotaryLimit::construct(PhysicsBody* a, PhysicsBody* b, float min, float max)
@@ -624,22 +741,24 @@ bool PhysicsJointRotaryLimit::createConstraints()
 
 float PhysicsJointRotaryLimit::getMin() const
 {
+    CC_PJOINT_CACHE_READ(_min);
     return PhysicsHelper::cpfloat2float(cpRotaryLimitJointGetMin(_cpConstraints.front()));
 }
 
 void PhysicsJointRotaryLimit::setMin(float min)
 {
-    cpRotaryLimitJointSetMin(_cpConstraints.front(), min);
+    CC_PJOINT_CACHE_WRITE(_min, cpRotaryLimitJointSetMin, min);
 }
 
 float PhysicsJointRotaryLimit::getMax() const
 {
+    CC_PJOINT_CACHE_READ(_max);
     return PhysicsHelper::cpfloat2float(cpRotaryLimitJointGetMax(_cpConstraints.front()));
 }
 
 void PhysicsJointRotaryLimit::setMax(float max)
 {
-    cpRotaryLimitJointSetMax(_cpConstraints.front(), max);
+    CC_PJOINT_CACHE_WRITE(_max, cpRotaryLimitJointSetMax, max);
 }
 
 PhysicsJointRatchet* PhysicsJointRatchet::construct(PhysicsBody* a, PhysicsBody* b, float phase, float ratchet)
@@ -678,32 +797,35 @@ bool PhysicsJointRatchet::createConstraints()
 
 float PhysicsJointRatchet::getAngle() const
 {
+    CC_PJOINT_CACHE_READ(_angle);
     return PhysicsHelper::cpfloat2float(cpRatchetJointGetAngle(_cpConstraints.front()));
 }
 
 void PhysicsJointRatchet::setAngle(float angle)
 {
-    cpRatchetJointSetAngle(_cpConstraints.front(), angle);
+    CC_PJOINT_CACHE_WRITE(_angle, cpRatchetJointSetAngle, angle);
 }
 
 float PhysicsJointRatchet::getPhase() const
 {
+    CC_PJOINT_CACHE_READ(_phase);
     return PhysicsHelper::cpfloat2float(cpRatchetJointGetPhase(_cpConstraints.front()));
 }
 
 void PhysicsJointRatchet::setPhase(float phase)
 {
-    cpRatchetJointSetPhase(_cpConstraints.front(), phase);
+    CC_PJOINT_CACHE_WRITE(_phase, cpRatchetJointSetPhase, phase);
 }
 
 float PhysicsJointRatchet::getRatchet() const
 {
+    CC_PJOINT_CACHE_READ(_ratchet);
     return PhysicsHelper::cpfloat2float(cpRatchetJointGetRatchet(_cpConstraints.front()));
 }
 
 void PhysicsJointRatchet::setRatchet(float ratchet)
 {
-    cpRatchetJointSetRatchet(_cpConstraints.front(), ratchet);
+    CC_PJOINT_CACHE_WRITE(_ratchet, cpRatchetJointSetRatchet, ratchet);
 }
 
 PhysicsJointGear* PhysicsJointGear::construct(PhysicsBody* a, PhysicsBody* b, float phase, float ratio)
@@ -742,22 +864,24 @@ bool PhysicsJointGear::createConstraints()
 
 float PhysicsJointGear::getPhase() const
 {
+    CC_PJOINT_CACHE_READ(_phase);
     return PhysicsHelper::cpfloat2float(cpGearJointGetPhase(_cpConstraints.front()));
 }
 
 void PhysicsJointGear::setPhase(float phase)
 {
-    cpGearJointSetPhase(_cpConstraints.front(), phase);
+    CC_PJOINT_CACHE_WRITE(_phase, cpGearJointSetPhase, phase);
 }
 
 float PhysicsJointGear::getRatio() const
 {
+    CC_PJOINT_CACHE_READ(_ratio);
     return PhysicsHelper::cpfloat2float(cpGearJointGetRatio(_cpConstraints.front()));
 }
 
 void PhysicsJointGear::setRatio(float ratio)
 {
-    cpGearJointSetRatio(_cpConstraints.front(), ratio);
+    CC_PJOINT_CACHE_WRITE(_ratio, cpGearJointSetRatio, ratio);
 }
 
 PhysicsJointMotor* PhysicsJointMotor::construct(PhysicsBody* a, PhysicsBody* b, float rate)
@@ -794,12 +918,13 @@ bool PhysicsJointMotor::createConstraints()
 
 float PhysicsJointMotor::getRate() const
 {
+    CC_PJOINT_CACHE_READ(_rate);
     return PhysicsHelper::cpfloat2float(cpSimpleMotorGetRate(_cpConstraints.front()));
 }
 
 void PhysicsJointMotor::setRate(float rate)
 {
-    cpSimpleMotorSetRate(_cpConstraints.front(), rate);
+    CC_PJOINT_CACHE_WRITE(_rate, cpSimpleMotorSetRate, rate);
 }
 
 NS_CC_END

cocos/physics/CCPhysicsJoint.h

@@ -26,6 +26,8 @@
 #ifndef __CCPHYSICS_JOINT_H__
 #define __CCPHYSICS_JOINT_H__
 
+#include <functional>
+
 #include "base/ccConfig.h"
 #if CC_USE_PHYSICS
 
@@ -40,6 +42,8 @@ class Node;
 class PhysicsBody;
 class PhysicsWorld;
 
+class WriteCache;
+
 /**
  * @addtogroup physics
  * @{
@@ -52,6 +56,8 @@ class PhysicsWorld;
  */
 class CC_DLL PhysicsJoint
 {
+protected:
+    typedef std::function<void()> DelayTask;
 protected:
     PhysicsJoint();
     virtual ~PhysicsJoint() = 0;
@@ -106,14 +112,21 @@ protected:
 
     bool initJoint();
 
+    void delay(const DelayTask & task) { _delayTasks.push_back(task); }
+
+    void flushDelayTasks();
+    
     /** Create constraints for this type joint */
     virtual bool createConstraints() { return false; }
 
     std::vector<cpConstraint*> _cpConstraints;
+    std::vector<DelayTask> _delayTasks;
     PhysicsBody* _bodyA;
     PhysicsBody* _bodyB;
     PhysicsWorld* _world;
 
+    WriteCache *_writeCache = nullptr;
+
     bool _enable;
     bool _collisionEnable;
     bool _destroyMark;
@@ -573,6 +586,7 @@ protected:
 /** @} */
 
 
+
 NS_CC_END
 
 #endif // CC_USE_PHYSICS

cocos/physics/CCPhysicsWorld.cpp

@@ -701,6 +701,10 @@ void PhysicsWorld::updateJoints()
         doRemoveJoint(joint);
     }
     _delayRemoveJoints.clear();
+
+    for (auto joint : _joints) {
+        joint->flushDelayTasks();
+    }
 }
 
 void PhysicsWorld::removeShape(PhysicsShape* shape)