// // Copyright (c) 2008-2017 the Urho3D project. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // #include "../Precompiled.h" #include "../Core/Context.h" #include "../Atomic2D/ConstraintMotor2D.h" #include "../Atomic2D/PhysicsUtils2D.h" #include "../Atomic2D/RigidBody2D.h" #include "../DebugNew.h" namespace Atomic { extern const char* ATOMIC2D_CATEGORY; ConstraintMotor2D::ConstraintMotor2D(Context* context) : Constraint2D(context), linearOffset_(Vector2::ZERO) { } ConstraintMotor2D::~ConstraintMotor2D() { } void ConstraintMotor2D::RegisterObject(Context* context) { context->RegisterFactory(ATOMIC2D_CATEGORY); ATOMIC_ACCESSOR_ATTRIBUTE("Is Enabled", IsEnabled, SetEnabled, bool, true, AM_DEFAULT); ATOMIC_ACCESSOR_ATTRIBUTE("Linear Offset", GetLinearOffset, SetLinearOffset, Vector2, Vector2::ZERO, AM_DEFAULT); ATOMIC_ACCESSOR_ATTRIBUTE("Angular Offset", GetAngularOffset, SetAngularOffset, float, 0.0f, AM_DEFAULT); ATOMIC_ACCESSOR_ATTRIBUTE("Max Force", GetMaxForce, SetMaxForce, float, 1.0f, AM_DEFAULT); ATOMIC_ACCESSOR_ATTRIBUTE("Max Torque", GetMaxTorque, SetMaxTorque, float, 1.0f, AM_DEFAULT); ATOMIC_ACCESSOR_ATTRIBUTE("Correction Factor", GetCorrectionFactor, SetCorrectionFactor, float, 0.3f, AM_DEFAULT); ATOMIC_COPY_BASE_ATTRIBUTES(Constraint2D); } void ConstraintMotor2D::SetLinearOffset(const Vector2& linearOffset) { if (linearOffset == linearOffset_) return; linearOffset_ = linearOffset; if (joint_) static_cast(joint_)->SetLinearOffset(ToB2Vec2(linearOffset)); else RecreateJoint(); MarkNetworkUpdate(); } void ConstraintMotor2D::SetAngularOffset(float angularOffset) { if (angularOffset == jointDef_.angularOffset) return; jointDef_.angularOffset = angularOffset; if (joint_) static_cast(joint_)->SetAngularOffset(angularOffset); else RecreateJoint(); MarkNetworkUpdate(); } void ConstraintMotor2D::SetMaxForce(float maxForce) { if (maxForce == jointDef_.maxForce) return; jointDef_.maxForce = maxForce; if (joint_) static_cast(joint_)->SetMaxForce(maxForce); else RecreateJoint(); MarkNetworkUpdate(); } void ConstraintMotor2D::SetMaxTorque(float maxTorque) { if (maxTorque == jointDef_.maxTorque) return; jointDef_.maxTorque = maxTorque; if (joint_) static_cast(joint_)->SetMaxTorque(maxTorque); else RecreateJoint(); MarkNetworkUpdate(); } void ConstraintMotor2D::SetCorrectionFactor(float correctionFactor) { if (correctionFactor == jointDef_.correctionFactor) return; jointDef_.correctionFactor = correctionFactor; if (joint_) static_cast(joint_)->SetCorrectionFactor(correctionFactor); else RecreateJoint(); MarkNetworkUpdate(); } b2JointDef* ConstraintMotor2D::GetJointDef() { if (!ownerBody_ || !otherBody_) return 0; b2Body* bodyA = ownerBody_->GetBody(); b2Body* bodyB = otherBody_->GetBody(); if (!bodyA || !bodyB) return 0; jointDef_.Initialize(bodyA, bodyB); jointDef_.linearOffset = ToB2Vec2(linearOffset_); return &jointDef_; } }