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openmw/components/sceneutil/lightmanager.hpp

390 lines
14 KiB
C++

#ifndef OPENMW_COMPONENTS_SCENEUTIL_LIGHTMANAGER_H
#define OPENMW_COMPONENTS_SCENEUTIL_LIGHTMANAGER_H
#include <array>
#include <memory>
#include <set>
#include <unordered_map>
#include <osg/Group>
#include <osg/Light>
#include <osg/NodeVisitor>
#include <osg/observer_ptr>
#include <components/shader/shadermanager.hpp>
#include <components/sceneutil/nodecallback.hpp>
#include <components/settings/settings.hpp>
namespace osgUtil
{
class CullVisitor;
}
namespace SceneUtil
{
class LightBuffer;
struct StateSetGenerator;
class PPLightBuffer
{
public:
inline static constexpr auto sMaxPPLights = 40;
inline static constexpr auto sMaxPPLightsArraySize = sMaxPPLights * 3;
PPLightBuffer()
{
for (size_t i = 0; i < 2; ++i)
{
mIndex[i] = 0;
mUniformBuffers[i]
= new osg::Uniform(osg::Uniform::FLOAT_VEC4, "omw_PointLights", sMaxPPLightsArraySize);
mUniformCount[i] = new osg::Uniform("omw_PointLightsCount", static_cast<int>(0));
}
}
void applyUniforms(size_t frame, osg::StateSet* stateset)
{
size_t frameId = frame % 2;
if (!stateset->getUniform("omw_PointLights"))
stateset->addUniform(mUniformBuffers[frameId]);
if (!stateset->getUniform("omw_PointLightsCount"))
stateset->addUniform(mUniformCount[frameId]);
mUniformBuffers[frameId]->dirty();
mUniformCount[frameId]->dirty();
}
void clear(size_t frame) { mIndex[frame % 2] = 0; }
void setLight(size_t frame, const osg::Light* light, float radius)
{
size_t frameId = frame % 2;
size_t i = mIndex[frameId];
if (i >= (sMaxPPLights - 1))
return;
i *= 3;
mUniformBuffers[frameId]->setElement(i + 0, light->getPosition());
mUniformBuffers[frameId]->setElement(i + 1, light->getDiffuse());
mUniformBuffers[frameId]->setElement(i + 2,
osg::Vec4f(light->getConstantAttenuation(), light->getLinearAttenuation(),
light->getQuadraticAttenuation(), radius));
mIndex[frameId]++;
}
void updateCount(size_t frame)
{
size_t frameId = frame % 2;
mUniformCount[frameId]->set(static_cast<int>(mIndex[frameId]));
}
private:
std::array<size_t, 2> mIndex;
std::array<osg::ref_ptr<osg::Uniform>, 2> mUniformBuffers;
std::array<osg::ref_ptr<osg::Uniform>, 2> mUniformCount;
};
enum class LightingMethod
{
FFP,
PerObjectUniform,
SingleUBO,
};
/// LightSource managed by a LightManager.
/// @par Typically used for point lights. Spot lights are not supported yet. Directional lights affect the whole
/// scene
/// so do not need to be managed by a LightManager - so for directional lights use a plain osg::LightSource
/// instead.
/// @note LightSources must be decorated by a LightManager node in order to have an effect. Typical use would
/// be one LightManager as the root of the scene graph.
/// @note One needs to attach LightListCallback's to the scene to have objects receive lighting from LightSources.
/// See the documentation of LightListCallback for more information.
/// @note The position of the contained osg::Light is automatically updated based on the LightSource's world
/// position.
class LightSource : public osg::Node
{
// double buffered osg::Light's, since one of them may be in use by the draw thread at any given time
std::array<osg::ref_ptr<osg::Light>, 2> mLight;
// LightSource will affect objects within this radius
float mRadius;
int mId;
float mActorFade;
unsigned int mLastAppliedFrame;
bool mEmpty = false;
public:
META_Node(SceneUtil, LightSource)
LightSource();
LightSource(const LightSource& copy, const osg::CopyOp& copyop);
float getRadius() const { return mRadius; }
/// The LightSource will affect objects within this radius.
void setRadius(float radius) { mRadius = radius; }
void setActorFade(float alpha) { mActorFade = alpha; }
float getActorFade() const { return mActorFade; }
void setEmpty(bool empty) { mEmpty = empty; }
bool getEmpty() const { return mEmpty; }
/// Get the osg::Light safe for modification in the given frame.
/// @par May be used externally to animate the light's color/attenuation properties,
/// and is used internally to synchronize the light's position with the position of the LightSource.
osg::Light* getLight(size_t frame) { return mLight[frame % 2]; }
/// @warning It is recommended not to replace an existing osg::Light, because there might still be
/// references to it in the light StateSet cache that are associated with this LightSource's ID.
/// These references will stay valid due to ref_ptr but will point to the old object.
/// @warning Do not modify the \a light after you've called this function.
void setLight(osg::Light* light)
{
mLight[0] = light;
mLight[1] = new osg::Light(*light);
}
/// Get the unique ID for this light source.
int getId() const { return mId; }
void setLastAppliedFrame(unsigned int lastAppliedFrame) { mLastAppliedFrame = lastAppliedFrame; }
unsigned int getLastAppliedFrame() const { return mLastAppliedFrame; }
};
class UBOManager : public osg::StateAttribute
{
public:
UBOManager(int lightCount = 1);
UBOManager(const UBOManager& copy, const osg::CopyOp& copyop = osg::CopyOp::SHALLOW_COPY);
void releaseGLObjects(osg::State* state) const override;
int compare(const StateAttribute& sa) const override;
META_StateAttribute(SceneUtil, UBOManager, osg::StateAttribute::LIGHT)
void apply(osg::State& state) const override;
auto& getLightBuffer(size_t frameNum) { return mLightBuffers[frameNum % 2]; }
private:
std::string generateDummyShader(int maxLightsInScene);
void initSharedLayout(osg::GLExtensions* ext, int handle, unsigned int frame) const;
osg::ref_ptr<osg::Program> mDummyProgram;
mutable bool mInitLayout;
mutable std::array<osg::ref_ptr<LightBuffer>, 2> mLightBuffers;
mutable std::array<bool, 2> mDirty;
osg::ref_ptr<LightBuffer> mTemplate;
};
/// @brief Decorator node implementing the rendering of any number of LightSources that can be anywhere in the
/// subgraph.
class LightManager : public osg::Group
{
public:
static LightingMethod getLightingMethodFromString(const std::string& value);
/// Returns string as used in settings file, or the empty string if the method is undefined
static std::string getLightingMethodString(LightingMethod method);
struct LightSourceTransform
{
LightSource* mLightSource;
osg::Matrixf mWorldMatrix;
};
struct LightSourceViewBound
{
LightSource* mLightSource;
osg::BoundingSphere mViewBound;
};
using LightList = std::vector<const LightSourceViewBound*>;
using SupportedMethods = std::array<bool, 3>;
META_Node(SceneUtil, LightManager)
LightManager(bool ffp = true);
LightManager(const LightManager& copy, const osg::CopyOp& copyop);
/// @param mask This mask is compared with the current Camera's cull mask to determine if lighting is desired.
/// By default, it's ~0u i.e. always on.
/// If you have some views that do not require lighting, then set the Camera's cull mask to not include
/// the lightingMask for a much faster cull and rendering.
void setLightingMask(size_t mask);
size_t getLightingMask() const;
/// Set the first light index that should be used by this manager, typically the number of directional lights in
/// the scene.
void setStartLight(int start);
int getStartLight() const;
/// Internal use only, called automatically by the LightManager's UpdateCallback
void update(size_t frameNum);
/// Internal use only, called automatically by the LightSource's UpdateCallback
void addLight(LightSource* lightSource, const osg::Matrixf& worldMat, size_t frameNum);
const std::vector<LightSourceViewBound>& getLightsInViewSpace(
osgUtil::CullVisitor* cv, const osg::RefMatrix* viewMatrix, size_t frameNum);
osg::ref_ptr<osg::StateSet> getLightListStateSet(
const LightList& lightList, size_t frameNum, const osg::RefMatrix* viewMatrix);
void setSunlight(osg::ref_ptr<osg::Light> sun);
osg::ref_ptr<osg::Light> getSunlight();
bool usingFFP() const;
LightingMethod getLightingMethod() const;
int getMaxLights() const;
int getMaxLightsInScene() const;
auto& getDummies() { return mDummies; }
auto& getLightIndexMap(size_t frameNum) { return mLightIndexMaps[frameNum % 2]; }
auto& getUBOManager() { return mUBOManager; }
osg::Matrixf getSunlightBuffer(size_t frameNum) const { return mSunlightBuffers[frameNum % 2]; }
void setSunlightBuffer(const osg::Matrixf& buffer, size_t frameNum) { mSunlightBuffers[frameNum % 2] = buffer; }
SupportedMethods getSupportedLightingMethods() { return mSupported; }
std::map<std::string, std::string> getLightDefines() const;
void processChangedSettings(const Settings::CategorySettingVector& changed);
/// Not thread safe, it is the responsibility of the caller to stop/start threading on the viewer
void updateMaxLights();
osg::ref_ptr<osg::Uniform> generateLightBufferUniform(const osg::Matrixf& sun);
// Whether to collect main scene camera points lights into a buffer to be later sent to postprocessing shaders
void setCollectPPLights(bool enabled);
std::shared_ptr<PPLightBuffer> getPPLightsBuffer() { return mPPLightBuffer; }
private:
void initFFP(int targetLights);
void initPerObjectUniform(int targetLights);
void initSingleUBO(int targetLights);
void updateSettings();
void setLightingMethod(LightingMethod method);
void setMaxLights(int value);
void updateGPUPointLight(
int index, LightSource* lightSource, size_t frameNum, const osg::RefMatrix* viewMatrix);
std::vector<LightSourceTransform> mLights;
using LightSourceViewBoundCollection = std::vector<LightSourceViewBound>;
std::map<osg::observer_ptr<osg::Camera>, LightSourceViewBoundCollection> mLightsInViewSpace;
using LightIdList = std::vector<int>;
struct HashLightIdList
{
size_t operator()(const LightIdList&) const;
};
using LightStateSetMap = std::unordered_map<LightIdList, osg::ref_ptr<osg::StateSet>, HashLightIdList>;
LightStateSetMap mStateSetCache[2];
std::vector<osg::ref_ptr<osg::StateAttribute>> mDummies;
int mStartLight;
size_t mLightingMask;
osg::ref_ptr<osg::Light> mSun;
osg::Matrixf mSunlightBuffers[2];
// < Light ID , Buffer Index >
using LightIndexMap = std::unordered_map<int, int>;
LightIndexMap mLightIndexMaps[2];
std::unique_ptr<StateSetGenerator> mStateSetGenerator;
osg::ref_ptr<UBOManager> mUBOManager;
LightingMethod mLightingMethod;
float mPointLightRadiusMultiplier;
float mPointLightFadeEnd;
float mPointLightFadeStart;
int mMaxLights;
SupportedMethods mSupported;
std::shared_ptr<PPLightBuffer> mPPLightBuffer;
};
/// To receive lighting, objects must be decorated by a LightListCallback. Light list callbacks must be added via
/// node->addCullCallback(new LightListCallback). Once a light list callback is added to a node, that node and all
/// its child nodes can receive lighting.
/// @par The placement of these LightListCallbacks affects the granularity of light lists. Having too fine grained
/// light lists can result in degraded performance. Too coarse grained light lists can result in lights no longer
/// rendering when the size of a light list exceeds the OpenGL limit on the number of concurrent lights (8). A good
/// starting point is to attach a LightListCallback to each game object's base node.
/// @note Not thread safe for CullThreadPerCamera threading mode.
/// @note Due to lack of OSG support, the callback does not work on Drawables.
class LightListCallback : public SceneUtil::NodeCallback<LightListCallback, osg::Node*, osgUtil::CullVisitor*>
{
public:
LightListCallback()
: mLightManager(nullptr)
, mLastFrameNumber(0)
{
}
LightListCallback(const LightListCallback& copy, const osg::CopyOp& copyop)
: osg::Object(copy, copyop)
, SceneUtil::NodeCallback<LightListCallback, osg::Node*, osgUtil::CullVisitor*>(copy, copyop)
, mLightManager(copy.mLightManager)
, mLastFrameNumber(0)
, mIgnoredLightSources(copy.mIgnoredLightSources)
{
}
META_Object(SceneUtil, LightListCallback)
void operator()(osg::Node* node, osgUtil::CullVisitor* nv);
bool pushLightState(osg::Node* node, osgUtil::CullVisitor* nv);
std::set<SceneUtil::LightSource*>& getIgnoredLightSources() { return mIgnoredLightSources; }
private:
LightManager* mLightManager;
size_t mLastFrameNumber;
LightManager::LightList mLightList;
std::set<SceneUtil::LightSource*> mIgnoredLightSources;
};
void configureStateSetSunOverride(LightManager* lightManager, const osg::Light* light, osg::StateSet* stateset,
int mode = osg::StateAttribute::ON | osg::StateAttribute::OVERRIDE);
}
#endif