forked from Mirrorlandia_minetest/irrlicht
8dbeba57cd
Cameras can render even when they are not in the scenemanager or onAnimate didn't get called for example because they are their parent are invisible. So let's be safe and add another call to updateAbsolutePosition(). Some cost, but usually we don't have that many rendering cameras, so shouldn't matter (if it ever matters I suppose we could override OnAnimate and add a flag if it _was_ animated since last render call. Maybe that's even useful in general for SceneNodes?). Similar CSceneNodeAnimatorCameraFPS was using getAbsolutePosition which was only updated after animators, so it was one frame behind. And documented ICameraSceneNode functions a bit. Especially updateMatrices is a bit of a confusing name unfortunately. git-svn-id: svn://svn.code.sf.net/p/irrlicht/code/trunk@6406 dfc29bdd-3216-0410-991c-e03cc46cb475
407 lines
11 KiB
C++
407 lines
11 KiB
C++
// Copyright (C) 2002-2012 Nikolaus Gebhardt
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// This file is part of the "Irrlicht Engine".
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// For conditions of distribution and use, see copyright notice in irrlicht.h
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#include "CCameraSceneNode.h"
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#include "ISceneManager.h"
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#include "IVideoDriver.h"
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#include "os.h"
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namespace irr
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{
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namespace scene
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{
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//! constructor
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CCameraSceneNode::CCameraSceneNode(ISceneNode* parent, ISceneManager* mgr, s32 id,
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const core::vector3df& position, const core::vector3df& lookat)
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: ICameraSceneNode(parent, mgr, id, position),
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BoundingBox(core::vector3df(0, 0, 0)), // Camera has no size. Still not sure if FLT_MAX might be the better variant
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Target(lookat), UpVector(0.0f, 1.0f, 0.0f), ZNear(1.0f), ZFar(3000.0f),
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InputReceiverEnabled(true), TargetAndRotationAreBound(false),
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HasD3DStyleProjectionMatrix(true)
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{
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#ifdef _DEBUG
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setDebugName("CCameraSceneNode");
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#endif
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// set default projection
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Fovy = core::PI / 2.5f; // Field of view, in radians.
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Aspect = 4.0f / 3.0f; // Aspect ratio.
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const video::IVideoDriver* const d = mgr?mgr->getVideoDriver():0;
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if (d)
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{
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if ( d->getCurrentRenderTargetSize().Height )
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Aspect = (f32)d->getCurrentRenderTargetSize().Width /
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(f32)d->getCurrentRenderTargetSize().Height;
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HasD3DStyleProjectionMatrix = d->getDriverType() != video::EDT_OPENGL;
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}
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ViewArea.setFarNearDistance(ZFar - ZNear);
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recalculateProjectionMatrix();
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recalculateViewArea();
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}
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//! Disables or enables the camera to get key or mouse inputs.
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void CCameraSceneNode::setInputReceiverEnabled(bool enabled)
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{
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InputReceiverEnabled = enabled;
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}
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//! Returns if the input receiver of the camera is currently enabled.
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bool CCameraSceneNode::isInputReceiverEnabled() const
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{
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return InputReceiverEnabled;
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}
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//! Sets the projection matrix of the camera.
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/** The core::matrix4 class has some methods
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to build a projection matrix. e.g: core::matrix4::buildProjectionMatrixPerspectiveFovLH
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\param projection: The new projection matrix of the camera. */
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void CCameraSceneNode::setProjectionMatrix(const core::matrix4& projection, bool isOrthogonal)
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{
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IsOrthogonal = isOrthogonal;
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ViewArea.getTransform ( video::ETS_PROJECTION ) = projection;
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}
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//! Gets the current projection matrix of the camera
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//! \return Returns the current projection matrix of the camera.
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const core::matrix4& CCameraSceneNode::getProjectionMatrix() const
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{
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return ViewArea.getTransform ( video::ETS_PROJECTION );
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}
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//! Gets the current view matrix of the camera
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//! \return Returns the current view matrix of the camera.
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const core::matrix4& CCameraSceneNode::getViewMatrix() const
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{
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return ViewArea.getTransform ( video::ETS_VIEW );
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}
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//! Sets a custom view matrix affector. The matrix passed here, will be
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//! multiplied with the view matrix when it gets updated.
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//! This allows for custom camera setups like, for example, a reflection camera.
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/** \param affector: The affector matrix. */
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void CCameraSceneNode::setViewMatrixAffector(const core::matrix4& affector)
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{
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Affector = affector;
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}
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//! Gets the custom view matrix affector.
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const core::matrix4& CCameraSceneNode::getViewMatrixAffector() const
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{
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return Affector;
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}
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//! It is possible to send mouse and key events to the camera. Most cameras
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//! may ignore this input, but camera scene nodes which are created for
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//! example with scene::ISceneManager::addMayaCameraSceneNode or
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//! scene::ISceneManager::addFPSCameraSceneNode, may want to get this input
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//! for changing their position, look at target or whatever.
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bool CCameraSceneNode::OnEvent(const SEvent& event)
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{
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if (!InputReceiverEnabled)
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return false;
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// send events to event receiving animators
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ISceneNodeAnimatorList::Iterator ait = Animators.begin();
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for (; ait != Animators.end(); ++ait)
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if ((*ait)->isEventReceiverEnabled() && (*ait)->OnEvent(event))
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return true;
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// if nobody processed the event, return false
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return false;
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}
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//! sets the look at target of the camera
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//! \param pos: Look at target of the camera.
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void CCameraSceneNode::setTarget(const core::vector3df& pos)
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{
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Target = pos;
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if(TargetAndRotationAreBound)
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{
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const core::vector3df toTarget = Target - getAbsolutePosition();
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ISceneNode::setRotation(toTarget.getHorizontalAngle());
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}
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}
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//! Sets the rotation of the node.
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/** This only modifies the relative rotation of the node.
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If the camera's target and rotation are bound ( @see bindTargetAndRotation() )
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then calling this will also change the camera's target to match the rotation.
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\param rotation New rotation of the node in degrees. */
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void CCameraSceneNode::setRotation(const core::vector3df& rotation)
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{
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if(TargetAndRotationAreBound)
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Target = getAbsolutePosition() + rotation.rotationToDirection();
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ISceneNode::setRotation(rotation);
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}
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//! Gets the current look at target of the camera
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//! \return Returns the current look at target of the camera
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const core::vector3df& CCameraSceneNode::getTarget() const
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{
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return Target;
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}
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//! sets the up vector of the camera
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//! \param pos: New upvector of the camera.
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void CCameraSceneNode::setUpVector(const core::vector3df& pos)
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{
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UpVector = pos;
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}
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//! Gets the up vector of the camera.
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//! \return Returns the up vector of the camera.
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const core::vector3df& CCameraSceneNode::getUpVector() const
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{
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return UpVector;
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}
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f32 CCameraSceneNode::getNearValue() const
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{
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return ZNear;
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}
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f32 CCameraSceneNode::getFarValue() const
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{
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return ZFar;
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}
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f32 CCameraSceneNode::getAspectRatio() const
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{
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return Aspect;
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}
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f32 CCameraSceneNode::getFOV() const
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{
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return Fovy;
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}
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void CCameraSceneNode::setNearValue(f32 f)
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{
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ZNear = f;
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recalculateProjectionMatrix();
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ViewArea.setFarNearDistance(ZFar - ZNear);
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}
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void CCameraSceneNode::setFarValue(f32 f)
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{
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ZFar = f;
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recalculateProjectionMatrix();
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ViewArea.setFarNearDistance(ZFar - ZNear);
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}
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void CCameraSceneNode::setAspectRatio(f32 f)
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{
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Aspect = f;
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recalculateProjectionMatrix();
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}
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void CCameraSceneNode::setFOV(f32 f)
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{
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Fovy = f;
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recalculateProjectionMatrix();
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}
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void CCameraSceneNode::recalculateProjectionMatrix()
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{
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ViewArea.getTransform ( video::ETS_PROJECTION ).buildProjectionMatrixPerspectiveFovLH(Fovy, Aspect, ZNear, ZFar, HasD3DStyleProjectionMatrix);
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IsOrthogonal = false;
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}
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//! prerender
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void CCameraSceneNode::OnRegisterSceneNode()
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{
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if ( SceneManager->getActiveCamera () == this )
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SceneManager->registerNodeForRendering(this, ESNRP_CAMERA);
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ISceneNode::OnRegisterSceneNode();
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}
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//! render
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void CCameraSceneNode::render()
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{
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updateAbsolutePosition(); // depending on that call in onAnimate is risky (might not be in SceneManager or it or it's parent might be invisible and still should render)
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updateMatrices();
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video::IVideoDriver* driver = SceneManager->getVideoDriver();
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if ( driver)
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{
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driver->setTransform(video::ETS_PROJECTION, ViewArea.getTransform ( video::ETS_PROJECTION) );
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driver->setTransform(video::ETS_VIEW, ViewArea.getTransform ( video::ETS_VIEW) );
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}
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}
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//! update
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void CCameraSceneNode::updateMatrices()
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{
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#if defined(_IRR_COMPILE_WITH_90_DEGREE_CAMERA)
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ViewArea.getTransform(video::ETS_VIEW).buildCameraLookAtMatrixLH(getAbsolutePosition(), Target, UpVector);
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#else
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core::vector3df pos = getAbsolutePosition();
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core::vector3df tgtv = Target - pos;
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tgtv.normalize();
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// if upvector and vector to the target are the same, we have a
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// problem. so solve this problem:
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core::vector3df up = UpVector;
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up.normalize();
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f32 dp = tgtv.dotProduct(up);
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if ( core::equals(core::abs_<f32>(dp), 1.f) )
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{
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up.X += 0.5f;
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}
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ViewArea.getTransform(video::ETS_VIEW).buildCameraLookAtMatrixLH(pos, Target, up);
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#endif
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ViewArea.getTransform(video::ETS_VIEW) *= Affector;
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recalculateViewArea();
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}
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//! returns the axis aligned bounding box of this node
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const core::aabbox3d<f32>& CCameraSceneNode::getBoundingBox() const
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{
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// NOTE: We deliberately don't return the boundingbox of the ViewArea. People can access that already.
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// We want to prevent cameras from having their bounding box colliding in the SceneCollisionManager.
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// If another boundingbox is ever necessary then please move BoundingBox to ICameraSceneNode and make it accessible (via a setter or an enum with options).
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return BoundingBox;
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}
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//! returns the view frustum.
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const SViewFrustum* CCameraSceneNode::getViewFrustum() const
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{
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return &ViewArea;
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}
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void CCameraSceneNode::recalculateViewArea()
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{
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ViewArea.cameraPosition = getAbsolutePosition();
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core::matrix4 m(core::matrix4::EM4CONST_NOTHING);
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m.setbyproduct_nocheck(ViewArea.getTransform(video::ETS_PROJECTION),
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ViewArea.getTransform(video::ETS_VIEW));
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ViewArea.setFrom(m, HasD3DStyleProjectionMatrix);
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}
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//! Writes attributes of the scene node.
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void CCameraSceneNode::serializeAttributes(io::IAttributes* out, io::SAttributeReadWriteOptions* options) const
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{
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ICameraSceneNode::serializeAttributes(out, options);
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out->addVector3d("Target", Target);
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out->addVector3d("UpVector", UpVector);
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out->addFloat("Fovy", Fovy);
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out->addFloat("Aspect", Aspect);
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out->addFloat("ZNear", ZNear);
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out->addFloat("ZFar", ZFar);
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out->addBool("Binding", TargetAndRotationAreBound);
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out->addBool("ReceiveInput", InputReceiverEnabled);
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}
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//! Reads attributes of the scene node.
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void CCameraSceneNode::deserializeAttributes(io::IAttributes* in, io::SAttributeReadWriteOptions* options)
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{
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ICameraSceneNode::deserializeAttributes(in, options);
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Target = in->getAttributeAsVector3d("Target");
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UpVector = in->getAttributeAsVector3d("UpVector");
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Fovy = in->getAttributeAsFloat("Fovy");
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Aspect = in->getAttributeAsFloat("Aspect");
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ZNear = in->getAttributeAsFloat("ZNear");
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ZFar = in->getAttributeAsFloat("ZFar");
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TargetAndRotationAreBound = in->getAttributeAsBool("Binding");
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if ( in->findAttribute("ReceiveInput") )
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InputReceiverEnabled = in->getAttributeAsBool("ReceiveInput");
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recalculateProjectionMatrix();
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recalculateViewArea();
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}
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//! Set the binding between the camera's rotation adn target.
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void CCameraSceneNode::bindTargetAndRotation(bool bound)
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{
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TargetAndRotationAreBound = bound;
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}
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//! Gets the binding between the camera's rotation and target.
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bool CCameraSceneNode::getTargetAndRotationBinding(void) const
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{
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return TargetAndRotationAreBound;
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}
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//! Creates a clone of this scene node and its children.
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ISceneNode* CCameraSceneNode::clone(ISceneNode* newParent, ISceneManager* newManager)
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{
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ICameraSceneNode::clone(newParent, newManager);
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if (!newParent)
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newParent = Parent;
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if (!newManager)
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newManager = SceneManager;
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CCameraSceneNode* nb = new CCameraSceneNode(newParent,
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newManager, ID, RelativeTranslation, Target);
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nb->ISceneNode::cloneMembers(this, newManager);
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nb->ICameraSceneNode::cloneMembers(this);
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nb->Target = Target;
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nb->UpVector = UpVector;
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nb->Fovy = Fovy;
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nb->Aspect = Aspect;
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nb->ZNear = ZNear;
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nb->ZFar = ZFar;
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nb->ViewArea = ViewArea;
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nb->Affector = Affector;
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nb->InputReceiverEnabled = InputReceiverEnabled;
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nb->TargetAndRotationAreBound = TargetAndRotationAreBound;
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if ( newParent )
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nb->drop();
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return nb;
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}
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} // end namespace
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} // end namespace
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