Remove some useless "Nz::" (#159)

* Remove useless "Nz::"

* Remove useless "Nz::"

* REmove useless "Nz::"

* Remove useless "Nz::"

include/Nazara/Physics3D/PhysWorld3D.hpp

@@ -35,13 +35,13 @@ namespace Nz
 			PhysWorld3D(PhysWorld3D&&) = delete; ///TODO
 			~PhysWorld3D();
 
-			int CreateMaterial(Nz::String name = Nz::String());
+			int CreateMaterial(String name = String());
 
-			void ForEachBodyInAABB(const Nz::Boxf& box, BodyIterator iterator);
+			void ForEachBodyInAABB(const Boxf& box, BodyIterator iterator);
 
 			Vector3f GetGravity() const;
 			NewtonWorld* GetHandle() const;
-			int GetMaterial(const Nz::String& name);
+			int GetMaterial(const String& name);
 			std::size_t GetMaxStepCount() const;
 			float GetStepSize() const;
 

include/Nazara/Physics3D/RigidBody3D.hpp

@@ -59,7 +59,7 @@ namespace Nz
 			bool IsSimulationEnabled() const;
 			bool IsSleeping() const;
 
-			void SetAngularDamping(const Nz::Vector3f& angularDamping);
+			void SetAngularDamping(const Vector3f& angularDamping);
 			void SetAngularVelocity(const Vector3f& angularVelocity);
 			void SetGeom(Collider3DRef geom);
 			void SetGravityFactor(float gravityFactor);
@@ -67,7 +67,7 @@ namespace Nz
 			void SetLinearVelocity(const Vector3f& velocity);
 			void SetMass(float mass);
 			void SetMassCenter(const Vector3f& center);
-			void SetMaterial(const Nz::String& materialName);
+			void SetMaterial(const String& materialName);
 			void SetMaterial(int materialIndex);
 			void SetPosition(const Vector3f& position);
 			void SetRotation(const Quaternionf& rotation);

src/Nazara/Physics3D/PhysWorld3D.cpp

@@ -27,7 +27,7 @@ namespace Nz
 		NewtonDestroy(m_world);
 	}
 
-	int PhysWorld3D::CreateMaterial(Nz::String name)
+	int PhysWorld3D::CreateMaterial(String name)
 	{
 		NazaraAssert(m_materialIds.find(name) == m_materialIds.end(), "Material \"" + name + "\" already exists");
 
@@ -37,7 +37,7 @@ namespace Nz
 		return materialId;
 	}
 
-	void PhysWorld3D::ForEachBodyInAABB(const Nz::Boxf& box, BodyIterator iterator)
+	void PhysWorld3D::ForEachBodyInAABB(const Boxf& box, BodyIterator iterator)
 	{
 		auto NewtonCallback = [](const NewtonBody* const body, void* const userdata) -> int
 		{
@@ -59,7 +59,7 @@ namespace Nz
 		return m_world;
 	}
 
-	int PhysWorld3D::GetMaterial(const Nz::String& name)
+	int PhysWorld3D::GetMaterial(const String& name)
 	{
 		auto it = m_materialIds.find(name);
 		NazaraAssert(it != m_materialIds.end(), "Material \"" + name + "\" does not exists");
@@ -99,7 +99,7 @@ namespace Nz
 
 	void PhysWorld3D::SetMaterialCollisionCallback(int firstMaterial, int secondMaterial, AABBOverlapCallback aabbOverlapCallback, CollisionCallback collisionCallback)
 	{
-		static_assert(sizeof(Nz::UInt64) >= 2 * sizeof(int), "Oops");
+		static_assert(sizeof(UInt64) >= 2 * sizeof(int), "Oops");
 
 		auto callbackPtr = std::make_unique<Callback>();
 		callbackPtr->aabbOverlapCallback = std::move(aabbOverlapCallback);
@@ -107,10 +107,10 @@ namespace Nz
 
 		NewtonMaterialSetCollisionCallback(m_world, firstMaterial, secondMaterial, callbackPtr.get(), (callbackPtr->aabbOverlapCallback) ? OnAABBOverlap : nullptr, (callbackPtr->collisionCallback) ? ProcessContact : nullptr);
 
-		Nz::UInt64 firstMaterialId(firstMaterial);
-		Nz::UInt64 secondMaterialId(secondMaterial);
+		UInt64 firstMaterialId(firstMaterial);
+		UInt64 secondMaterialId(secondMaterial);
 
-		Nz::UInt64 callbackIndex = firstMaterialId << 32 | secondMaterialId;
+		UInt64 callbackIndex = firstMaterialId << 32 | secondMaterialId;
 		m_callbacks[callbackIndex] = std::move(callbackPtr);
 	}
 
@@ -154,8 +154,8 @@ namespace Nz
 
 	int PhysWorld3D::OnAABBOverlap(const NewtonMaterial* const material, const NewtonBody* const body0, const NewtonBody* const body1, int threadIndex)
 	{
-		Nz::RigidBody3D* bodyA = static_cast<Nz::RigidBody3D*>(NewtonBodyGetUserData(body0));
-		Nz::RigidBody3D* bodyB = static_cast<Nz::RigidBody3D*>(NewtonBodyGetUserData(body1));
+		RigidBody3D* bodyA = static_cast<RigidBody3D*>(NewtonBodyGetUserData(body0));
+		RigidBody3D* bodyB = static_cast<RigidBody3D*>(NewtonBodyGetUserData(body1));
 		assert(bodyA && bodyB);
 
 		Callback* callbackData = static_cast<Callback*>(NewtonMaterialGetMaterialPairUserData(material));
@@ -167,14 +167,14 @@ namespace Nz
 
 	void PhysWorld3D::ProcessContact(const NewtonJoint* const contactJoint, float timestep, int threadIndex)
 	{
-		Nz::RigidBody3D* bodyA = static_cast<Nz::RigidBody3D*>(NewtonBodyGetUserData(NewtonJointGetBody0(contactJoint)));
-		Nz::RigidBody3D* bodyB = static_cast<Nz::RigidBody3D*>(NewtonBodyGetUserData(NewtonJointGetBody1(contactJoint)));
+		RigidBody3D* bodyA = static_cast<RigidBody3D*>(NewtonBodyGetUserData(NewtonJointGetBody0(contactJoint)));
+		RigidBody3D* bodyB = static_cast<RigidBody3D*>(NewtonBodyGetUserData(NewtonJointGetBody1(contactJoint)));
 		assert(bodyA && bodyB);
 
 		using ContactJoint = void*;
 
 		// Query all joints first, to prevent removing a joint from the list while iterating on it
-		Nz::StackArray<ContactJoint> contacts = NazaraStackAllocationNoInit(ContactJoint, NewtonContactJointGetContactCount(contactJoint));
+		StackArray<ContactJoint> contacts = NazaraStackAllocationNoInit(ContactJoint, NewtonContactJointGetContactCount(contactJoint));
 		std::size_t contactIndex = 0;
 		for (ContactJoint contact = NewtonContactJointGetFirstContact(contactJoint); contact; contact = NewtonContactJointGetNextContact(contactJoint, contact))
 		{

src/Nazara/Physics3D/RigidBody3D.cpp

@@ -266,7 +266,7 @@ namespace Nz
 		return NewtonBodyGetSleepState(m_body) != 0;
 	}
 
-	void RigidBody3D::SetAngularDamping(const Nz::Vector3f& angularDamping)
+	void RigidBody3D::SetAngularDamping(const Vector3f& angularDamping)
 	{
 		NewtonBodySetAngularDamping(m_body, angularDamping);
 	}
@@ -345,7 +345,7 @@ namespace Nz
 			NewtonBodySetCentreOfMass(m_body, center);
 	}
 
-	void RigidBody3D::SetMaterial(const Nz::String& materialName)
+	void RigidBody3D::SetMaterial(const String& materialName)
 	{
 		SetMaterial(m_world->GetMaterial(materialName));
 	}