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|
/**
* @file llvieweroctree.cpp
* @brief LLViewerOctreeGroup class implementation and supporting functions
*
* $LicenseInfo:firstyear=2003&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "llviewerprecompiledheaders.h"
#include "llvieweroctree.h"
#include "llviewerregion.h"
#include "pipeline.h"
#include "llviewercontrol.h"
#include "llappviewer.h"
#include "llglslshader.h"
#include "llviewershadermgr.h"
//-----------------------------------------------------------------------------------
//static variables definitions
//-----------------------------------------------------------------------------------
U32 LLViewerOctreeEntryData::sCurVisible = 10; //reserve the low numbers for special use.
BOOL LLViewerOctreeDebug::sInDebug = FALSE;
static LLTrace::CountStatHandle<S32> sOcclusionQueries("occlusion_queries", "Number of occlusion queries executed"),
sNumObjectsOccluded("occluded_objects", "Count of objects being occluded by a query"),
sNumObjectsUnoccluded("unoccluded_objects", "Count of objects being unoccluded by a query");
//-----------------------------------------------------------------------------------
//some global functions definitions
//-----------------------------------------------------------------------------------
typedef enum
{
b000 = 0x00,
b001 = 0x01,
b010 = 0x02,
b011 = 0x03,
b100 = 0x04,
b101 = 0x05,
b110 = 0x06,
b111 = 0x07,
} eLoveTheBits;
//contact Runitai Linden for a copy of the SL object used to write this table
//basically, you give the table a bitmask of the look-at vector to a node and it
//gives you a triangle fan index array
static U16 sOcclusionIndices[] =
{
//000
b111, b110, b010, b011, b001, b101, b100, b110,
//001
b011, b010, b000, b001, b101, b111, b110, b010,
//010
b101, b100, b110, b111, b011, b001, b000, b100,
//011
b001, b000, b100, b101, b111, b011, b010, b000,
//100
b110, b000, b010, b011, b111, b101, b100, b000,
//101
b010, b100, b000, b001, b011, b111, b110, b100,
//110
b100, b010, b110, b111, b101, b001, b000, b010,
//111
b000, b110, b100, b101, b001, b011, b010, b110,
};
U32 get_box_fan_indices(LLCamera* camera, const LLVector4a& center)
{
LLVector4a origin;
origin.load3(camera->getOrigin().mV);
S32 cypher = center.greaterThan(origin).getGatheredBits() & 0x7;
return cypher*8;
}
U8* get_box_fan_indices_ptr(LLCamera* camera, const LLVector4a& center)
{
LLVector4a origin;
origin.load3(camera->getOrigin().mV);
S32 cypher = center.greaterThan(origin).getGatheredBits() & 0x7;
return (U8*) (sOcclusionIndices+cypher*8);
}
//create a vertex buffer for efficiently rendering cubes
LLVertexBuffer* ll_create_cube_vb(U32 type_mask, U32 usage)
{
LLVertexBuffer* ret = new LLVertexBuffer(type_mask, usage);
ret->allocateBuffer(8, 64, true);
LLStrider<LLVector3> pos;
LLStrider<U16> idx;
ret->getVertexStrider(pos);
ret->getIndexStrider(idx);
pos[0] = LLVector3(-1,-1,-1);
pos[1] = LLVector3(-1,-1, 1);
pos[2] = LLVector3(-1, 1,-1);
pos[3] = LLVector3(-1, 1, 1);
pos[4] = LLVector3( 1,-1,-1);
pos[5] = LLVector3( 1,-1, 1);
pos[6] = LLVector3( 1, 1,-1);
pos[7] = LLVector3( 1, 1, 1);
for (U32 i = 0; i < 64; i++)
{
idx[i] = sOcclusionIndices[i];
}
ret->flush();
return ret;
}
#define LL_TRACK_PENDING_OCCLUSION_QUERIES 0
const F32 SG_OCCLUSION_FUDGE = 0.25f;
#define SG_DISCARD_TOLERANCE 0.01f
S32 AABBSphereIntersect(const LLVector3& min, const LLVector3& max, const LLVector3 &origin, const F32 &rad)
{
return AABBSphereIntersectR2(min, max, origin, rad*rad);
}
S32 AABBSphereIntersectR2(const LLVector3& min, const LLVector3& max, const LLVector3 &origin, const F32 &r)
{
F32 d = 0.f;
F32 t;
if ((min-origin).magVecSquared() < r &&
(max-origin).magVecSquared() < r)
{
return 2;
}
for (U32 i = 0; i < 3; i++)
{
if (origin.mV[i] < min.mV[i])
{
t = min.mV[i] - origin.mV[i];
d += t*t;
}
else if (origin.mV[i] > max.mV[i])
{
t = origin.mV[i] - max.mV[i];
d += t*t;
}
if (d > r)
{
return 0;
}
}
return 1;
}
S32 AABBSphereIntersect(const LLVector4a& min, const LLVector4a& max, const LLVector3 &origin, const F32 &rad)
{
return AABBSphereIntersectR2(min, max, origin, rad*rad);
}
S32 AABBSphereIntersectR2(const LLVector4a& min, const LLVector4a& max, const LLVector3 &origin, const F32 &r)
{
F32 d = 0.f;
F32 t;
LLVector4a origina;
origina.load3(origin.mV);
LLVector4a v;
v.setSub(min, origina);
if (v.dot3(v) < r)
{
v.setSub(max, origina);
if (v.dot3(v) < r)
{
return 2;
}
}
for (U32 i = 0; i < 3; i++)
{
if (origin.mV[i] < min[i])
{
t = min[i] - origin.mV[i];
d += t*t;
}
else if (origin.mV[i] > max[i])
{
t = origin.mV[i] - max[i];
d += t*t;
}
if (d > r)
{
return 0;
}
}
return 1;
}
//-----------------------------------------------------------------------------------
//class LLViewerOctreeEntry definitions
//-----------------------------------------------------------------------------------
LLViewerOctreeEntry::LLViewerOctreeEntry()
: LLTrace::MemTrackable<LLViewerOctreeEntry, 16>("LLViewerOctreeEntry"),
mGroup(NULL),
mBinRadius(0.f),
mBinIndex(-1),
mVisible(0)
{
mPositionGroup.clear();
mExtents[0].clear();
mExtents[1].clear();
for(S32 i = 0; i < NUM_DATA_TYPE; i++)
{
mData[i] = NULL;
}
}
LLViewerOctreeEntry::~LLViewerOctreeEntry()
{
llassert(!mGroup);
}
void LLViewerOctreeEntry::addData(LLViewerOctreeEntryData* data)
{
//llassert(mData[data->getDataType()] == NULL);
llassert(data != NULL);
mData[data->getDataType()] = data;
}
void LLViewerOctreeEntry::removeData(LLViewerOctreeEntryData* data)
{
//llassert(data->getDataType() != LLVOCACHEENTRY); //can not remove VOCache entry
if(!mData[data->getDataType()])
{
return;
}
if(mData[data->getDataType()] != data)
{
return;
}
mData[data->getDataType()] = NULL;
if(mGroup != NULL && !mData[LLDRAWABLE])
{
LLViewerOctreeGroup* group = mGroup;
mGroup = NULL;
group->removeFromGroup(data);
llassert(mBinIndex == -1);
}
}
//called by group handleDestruction() ONLY when group is destroyed by octree.
void LLViewerOctreeEntry::nullGroup()
{
mGroup = NULL;
}
void LLViewerOctreeEntry::setGroup(LLViewerOctreeGroup* group)
{
if(mGroup == group)
{
return;
}
if(mGroup)
{
LLViewerOctreeGroup* old_group = mGroup;
mGroup = NULL;
old_group->removeFromGroup(this);
llassert(mBinIndex == -1);
}
mGroup = group;
}
//-----------------------------------------------------------------------------------
//class LLViewerOctreeEntryData definitions
//-----------------------------------------------------------------------------------
LLViewerOctreeEntryData::~LLViewerOctreeEntryData()
{
if(mEntry)
{
mEntry->removeData(this);
}
}
LLViewerOctreeEntryData::LLViewerOctreeEntryData(LLViewerOctreeEntry::eEntryDataType_t data_type)
: mDataType(data_type),
mEntry(NULL)
{
}
//virtual
void LLViewerOctreeEntryData::setOctreeEntry(LLViewerOctreeEntry* entry)
{
llassert_always(mEntry.isNull());
if(mEntry.notNull())
{
return;
}
if(!entry)
{
mEntry = new LLViewerOctreeEntry();
}
else
{
mEntry = entry;
}
mEntry->addData(this);
}
void LLViewerOctreeEntryData::removeOctreeEntry()
{
if(mEntry)
{
mEntry->removeData(this);
mEntry = NULL;
}
}
void LLViewerOctreeEntryData::setSpatialExtents(const LLVector3& min, const LLVector3& max)
{
mEntry->mExtents[0].load3(min.mV);
mEntry->mExtents[1].load3(max.mV);
}
void LLViewerOctreeEntryData::setSpatialExtents(const LLVector4a& min, const LLVector4a& max)
{
mEntry->mExtents[0] = min;
mEntry->mExtents[1] = max;
}
void LLViewerOctreeEntryData::setPositionGroup(const LLVector4a& pos)
{
mEntry->mPositionGroup = pos;
}
const LLVector4a* LLViewerOctreeEntryData::getSpatialExtents() const
{
return mEntry->getSpatialExtents();
}
//virtual
void LLViewerOctreeEntryData::setGroup(LLViewerOctreeGroup* group)
{
mEntry->setGroup(group);
}
void LLViewerOctreeEntryData::shift(const LLVector4a &shift_vector)
{
mEntry->mExtents[0].add(shift_vector);
mEntry->mExtents[1].add(shift_vector);
mEntry->mPositionGroup.add(shift_vector);
}
LLViewerOctreeGroup* LLViewerOctreeEntryData::getGroup()const
{
return mEntry.notNull() ? mEntry->mGroup : NULL;
}
const LLVector4a& LLViewerOctreeEntryData::getPositionGroup() const
{
return mEntry->getPositionGroup();
}
//virtual
bool LLViewerOctreeEntryData::isVisible() const
{
if(mEntry)
{
return mEntry->mVisible == sCurVisible;
}
return false;
}
//virtual
bool LLViewerOctreeEntryData::isRecentlyVisible() const
{
if(!mEntry)
{
return false;
}
if(isVisible())
{
return true;
}
if(getGroup() && getGroup()->isRecentlyVisible())
{
setVisible();
return true;
}
return false;
}
void LLViewerOctreeEntryData::setVisible() const
{
if(mEntry)
{
mEntry->mVisible = sCurVisible;
}
}
void LLViewerOctreeEntryData::resetVisible() const
{
if(mEntry)
{
mEntry->mVisible = 0;
}
}
//-----------------------------------------------------------------------------------
//class LLViewerOctreeGroup definitions
//-----------------------------------------------------------------------------------
LLViewerOctreeGroup::~LLViewerOctreeGroup()
{
//empty here
}
LLViewerOctreeGroup::LLViewerOctreeGroup(OctreeNode* node)
: LLTrace::MemTrackable<LLViewerOctreeGroup, 16>("LLViewerOctreeGroup"),
mOctreeNode(node),
mAnyVisible(0),
mState(CLEAN)
{
LLVector4a tmp;
tmp.splat(0.f);
mExtents[0] = mExtents[1] = mObjectBounds[0] = mObjectBounds[1] =
mObjectExtents[0] = mObjectExtents[1] = tmp;
mBounds[0] = node->getCenter();
mBounds[1] = node->getSize();
mOctreeNode->addListener(this);
}
bool LLViewerOctreeGroup::hasElement(LLViewerOctreeEntryData* data)
{
if(!data->getEntry())
{
return false;
}
return std::find(getDataBegin(), getDataEnd(), data->getEntry()) != getDataEnd();
}
bool LLViewerOctreeGroup::removeFromGroup(LLViewerOctreeEntryData* data)
{
return removeFromGroup(data->getEntry());
}
bool LLViewerOctreeGroup::removeFromGroup(LLViewerOctreeEntry* entry)
{
llassert(entry != NULL);
llassert(!entry->getGroup());
if(isDead()) //group is about to be destroyed, not need to double delete the entry.
{
entry->setBinIndex(-1);
return true;
}
unbound();
setState(OBJECT_DIRTY);
if (mOctreeNode)
{
if (!mOctreeNode->remove(entry)) //this could cause *this* pointer to be destroyed, so no more function calls after this.
{
OCT_ERRS << "Could not remove LLVOCacheEntry from LLVOCacheOctreeGroup" << LL_ENDL;
return false;
}
}
return true;
}
//virtual
void LLViewerOctreeGroup::unbound()
{
if (isDirty())
{
return;
}
setState(DIRTY);
//all the parent nodes need to rebound this child
if (mOctreeNode)
{
OctreeNode* parent = (OctreeNode*) mOctreeNode->getParent();
while (parent != NULL)
{
LLViewerOctreeGroup* group = (LLViewerOctreeGroup*) parent->getListener(0);
if (!group || group->isDirty())
{
return;
}
group->setState(DIRTY);
parent = (OctreeNode*) parent->getParent();
}
}
}
//virtual
void LLViewerOctreeGroup::rebound()
{
if (!isDirty())
{
return;
}
if (mOctreeNode->getChildCount() == 1 && mOctreeNode->getElementCount() == 0)
{
LLViewerOctreeGroup* group = (LLViewerOctreeGroup*) mOctreeNode->getChild(0)->getListener(0);
group->rebound();
//copy single child's bounding box
mBounds[0] = group->mBounds[0];
mBounds[1] = group->mBounds[1];
mExtents[0] = group->mExtents[0];
mExtents[1] = group->mExtents[1];
group->setState(SKIP_FRUSTUM_CHECK);
}
else if (mOctreeNode->isLeaf())
{ //copy object bounding box if this is a leaf
boundObjects(TRUE, mExtents[0], mExtents[1]);
mBounds[0] = mObjectBounds[0];
mBounds[1] = mObjectBounds[1];
}
else
{
LLVector4a& newMin = mExtents[0];
LLVector4a& newMax = mExtents[1];
LLViewerOctreeGroup* group = (LLViewerOctreeGroup*) mOctreeNode->getChild(0)->getListener(0);
group->clearState(SKIP_FRUSTUM_CHECK);
group->rebound();
//initialize to first child
newMin = group->mExtents[0];
newMax = group->mExtents[1];
//first, rebound children
for (U32 i = 1; i < mOctreeNode->getChildCount(); i++)
{
group = (LLViewerOctreeGroup*) mOctreeNode->getChild(i)->getListener(0);
group->clearState(SKIP_FRUSTUM_CHECK);
group->rebound();
const LLVector4a& max = group->mExtents[1];
const LLVector4a& min = group->mExtents[0];
newMax.setMax(newMax, max);
newMin.setMin(newMin, min);
}
boundObjects(FALSE, newMin, newMax);
mBounds[0].setAdd(newMin, newMax);
mBounds[0].mul(0.5f);
mBounds[1].setSub(newMax, newMin);
mBounds[1].mul(0.5f);
}
clearState(DIRTY);
return;
}
//virtual
void LLViewerOctreeGroup::handleInsertion(const TreeNode* node, LLViewerOctreeEntry* obj)
{
obj->setGroup(this);
unbound();
setState(OBJECT_DIRTY);
}
//virtual
void LLViewerOctreeGroup::handleRemoval(const TreeNode* node, LLViewerOctreeEntry* obj)
{
unbound();
setState(OBJECT_DIRTY);
obj->setGroup(NULL); //this could cause *this* pointer to be destroyed. So no more function calls after this.
}
//virtual
void LLViewerOctreeGroup::handleDestruction(const TreeNode* node)
{
for (OctreeNode::element_iter i = mOctreeNode->getDataBegin(); i != mOctreeNode->getDataEnd(); ++i)
{
LLViewerOctreeEntry* obj = *i;
if (obj && obj->getGroup() == this)
{
obj->nullGroup();
//obj->setGroup(NULL);
}
}
mOctreeNode = NULL;
}
//virtual
void LLViewerOctreeGroup::handleStateChange(const TreeNode* node)
{
//drop bounding box upon state change
if (mOctreeNode != node)
{
mOctreeNode = (OctreeNode*) node;
}
unbound();
}
//virtual
void LLViewerOctreeGroup::handleChildAddition(const OctreeNode* parent, OctreeNode* child)
{
if (child->getListenerCount() == 0)
{
new LLViewerOctreeGroup(child);
}
else
{
OCT_ERRS << "LLViewerOctreeGroup redundancy detected." << LL_ENDL;
}
unbound();
((LLViewerOctreeGroup*)child->getListener(0))->unbound();
}
//virtual
void LLViewerOctreeGroup::handleChildRemoval(const OctreeNode* parent, const OctreeNode* child)
{
unbound();
}
LLViewerOctreeGroup* LLViewerOctreeGroup::getParent()
{
if (isDead())
{
return NULL;
}
if(!mOctreeNode)
{
return NULL;
}
OctreeNode* parent = mOctreeNode->getOctParent();
if (parent)
{
return (LLViewerOctreeGroup*) parent->getListener(0);
}
return NULL;
}
//virtual
bool LLViewerOctreeGroup::boundObjects(BOOL empty, LLVector4a& minOut, LLVector4a& maxOut)
{
const OctreeNode* node = mOctreeNode;
if (node->isEmpty())
{ //don't do anything if there are no objects
if (empty && mOctreeNode->getParent())
{ //only root is allowed to be empty
OCT_ERRS << "Empty leaf found in octree." << LL_ENDL;
}
return false;
}
LLVector4a& newMin = mObjectExtents[0];
LLVector4a& newMax = mObjectExtents[1];
if (hasState(OBJECT_DIRTY))
{ //calculate new bounding box
clearState(OBJECT_DIRTY);
//initialize bounding box to first element
OctreeNode::const_element_iter i = node->getDataBegin();
LLViewerOctreeEntry* entry = *i;
const LLVector4a* minMax = entry->getSpatialExtents();
newMin = minMax[0];
newMax = minMax[1];
for (++i; i != node->getDataEnd(); ++i)
{
entry = *i;
minMax = entry->getSpatialExtents();
update_min_max(newMin, newMax, minMax[0]);
update_min_max(newMin, newMax, minMax[1]);
}
mObjectBounds[0].setAdd(newMin, newMax);
mObjectBounds[0].mul(0.5f);
mObjectBounds[1].setSub(newMax, newMin);
mObjectBounds[1].mul(0.5f);
}
if (empty)
{
minOut = newMin;
maxOut = newMax;
}
else
{
minOut.setMin(minOut, newMin);
maxOut.setMax(maxOut, newMax);
}
return TRUE;
}
//virtual
BOOL LLViewerOctreeGroup::isVisible() const
{
return mVisible[LLViewerCamera::sCurCameraID] >= LLViewerOctreeEntryData::getCurrentFrame() ? TRUE : FALSE;
}
//virtual
BOOL LLViewerOctreeGroup::isRecentlyVisible() const
{
return FALSE;
}
void LLViewerOctreeGroup::setVisible()
{
mVisible[LLViewerCamera::sCurCameraID] = LLViewerOctreeEntryData::getCurrentFrame();
if(LLViewerCamera::sCurCameraID < LLViewerCamera::CAMERA_WATER0)
{
mAnyVisible = LLViewerOctreeEntryData::getCurrentFrame();
}
}
void LLViewerOctreeGroup::checkStates()
{
#if LL_OCTREE_PARANOIA_CHECK
//LLOctreeStateCheck checker;
//checker.traverse(mOctreeNode);
#endif
}
//-------------------------------------------------------------------------------------------
//occulsion culling functions and classes
//-------------------------------------------------------------------------------------------
std::set<U32> LLOcclusionCullingGroup::sPendingQueries;
class LLOcclusionQueryPool : public LLGLNamePool
{
public:
LLOcclusionQueryPool()
{
}
protected:
virtual GLuint allocateName()
{
GLuint ret = 0;
glGenQueriesARB(1, &ret);
return ret;
}
virtual void releaseName(GLuint name)
{
#if LL_TRACK_PENDING_OCCLUSION_QUERIES
LLOcclusionCullingGroup::sPendingQueries.erase(name);
#endif
glDeleteQueriesARB(1, &name);
}
};
static LLOcclusionQueryPool sQueryPool;
U32 LLOcclusionCullingGroup::getNewOcclusionQueryObjectName()
{
return sQueryPool.allocate();
}
void LLOcclusionCullingGroup::releaseOcclusionQueryObjectName(GLuint name)
{
sQueryPool.release(name);
}
//=====================================
// Occlusion State Set/Clear
//=====================================
class LLSpatialSetOcclusionState : public OctreeTraveler
{
public:
U32 mState;
LLSpatialSetOcclusionState(U32 state) : mState(state) { }
virtual void visit(const OctreeNode* branch)
{
LLOcclusionCullingGroup* group = (LLOcclusionCullingGroup*)branch->getListener(0);
if(group)
{
group->setOcclusionState(mState);
}
}
};
class LLSpatialSetOcclusionStateDiff : public LLSpatialSetOcclusionState
{
public:
LLSpatialSetOcclusionStateDiff(U32 state) : LLSpatialSetOcclusionState(state) { }
virtual void traverse(const OctreeNode* n)
{
LLOcclusionCullingGroup* group = (LLOcclusionCullingGroup*) n->getListener(0);
if (group && !group->isOcclusionState(mState))
{
OctreeTraveler::traverse(n);
}
}
};
LLOcclusionCullingGroup::LLOcclusionCullingGroup(OctreeNode* node, LLViewerOctreePartition* part) :
LLViewerOctreeGroup(node),
mSpatialPartition(part)
{
part->mLODSeed = (part->mLODSeed+1)%part->mLODPeriod;
mLODHash = part->mLODSeed;
OctreeNode* oct_parent = node->getOctParent();
LLOcclusionCullingGroup* parent = oct_parent ? (LLOcclusionCullingGroup*) oct_parent->getListener(0) : NULL;
for (U32 i = 0; i < LLViewerCamera::NUM_CAMERAS; i++)
{
mOcclusionQuery[i] = 0;
mOcclusionIssued[i] = 0;
mOcclusionState[i] = parent ? SG_STATE_INHERIT_MASK & parent->mOcclusionState[i] : 0;
mVisible[i] = 0;
}
}
LLOcclusionCullingGroup::~LLOcclusionCullingGroup()
{
releaseOcclusionQueryObjectNames();
}
BOOL LLOcclusionCullingGroup::needsUpdate()
{
return (LLDrawable::getCurrentFrame() % mSpatialPartition->mLODPeriod == mLODHash) ? TRUE : FALSE;
}
BOOL LLOcclusionCullingGroup::isRecentlyVisible() const
{
const S32 MIN_VIS_FRAME_RANGE = 2;
return (LLDrawable::getCurrentFrame() - mVisible[LLViewerCamera::sCurCameraID]) < MIN_VIS_FRAME_RANGE ;
}
BOOL LLOcclusionCullingGroup::isAnyRecentlyVisible() const
{
const S32 MIN_VIS_FRAME_RANGE = 2;
return (LLDrawable::getCurrentFrame() - mAnyVisible) < MIN_VIS_FRAME_RANGE ;
}
//virtual
void LLOcclusionCullingGroup::handleChildAddition(const OctreeNode* parent, OctreeNode* child)
{
if (child->getListenerCount() == 0)
{
new LLOcclusionCullingGroup(child, mSpatialPartition);
}
else
{
OCT_ERRS << "LLOcclusionCullingGroup redundancy detected." << LL_ENDL;
}
unbound();
((LLViewerOctreeGroup*)child->getListener(0))->unbound();
}
void LLOcclusionCullingGroup::releaseOcclusionQueryObjectNames()
{
if (gGLManager.mHasOcclusionQuery)
{
for (U32 i = 0; i < LLViewerCamera::NUM_CAMERAS; ++i)
{
if (mOcclusionQuery[i])
{
releaseOcclusionQueryObjectName(mOcclusionQuery[i]);
mOcclusionQuery[i] = 0;
}
}
}
}
void LLOcclusionCullingGroup::setOcclusionState(U32 state, S32 mode)
{
if (mode > STATE_MODE_SINGLE)
{
if (mode == STATE_MODE_DIFF)
{
LLSpatialSetOcclusionStateDiff setter(state);
setter.traverse(mOctreeNode);
}
else if (mode == STATE_MODE_BRANCH)
{
LLSpatialSetOcclusionState setter(state);
setter.traverse(mOctreeNode);
}
else
{
for (U32 i = 0; i < LLViewerCamera::NUM_CAMERAS; i++)
{
mOcclusionState[i] |= state;
if ((state & DISCARD_QUERY) && mOcclusionQuery[i])
{
releaseOcclusionQueryObjectName(mOcclusionQuery[i]);
mOcclusionQuery[i] = 0;
}
}
}
}
else
{
if (state & OCCLUDED)
{
add(sNumObjectsOccluded, 1);
}
mOcclusionState[LLViewerCamera::sCurCameraID] |= state;
if ((state & DISCARD_QUERY) && mOcclusionQuery[LLViewerCamera::sCurCameraID])
{
releaseOcclusionQueryObjectName(mOcclusionQuery[LLViewerCamera::sCurCameraID]);
mOcclusionQuery[LLViewerCamera::sCurCameraID] = 0;
}
}
}
class LLSpatialClearOcclusionState : public OctreeTraveler
{
public:
U32 mState;
LLSpatialClearOcclusionState(U32 state) : mState(state) { }
virtual void visit(const OctreeNode* branch)
{
LLOcclusionCullingGroup* group = (LLOcclusionCullingGroup*)branch->getListener(0);
if(group)
{
group->clearOcclusionState(mState);
}
}
};
class LLSpatialClearOcclusionStateDiff : public LLSpatialClearOcclusionState
{
public:
LLSpatialClearOcclusionStateDiff(U32 state) : LLSpatialClearOcclusionState(state) { }
virtual void traverse(const OctreeNode* n)
{
LLOcclusionCullingGroup* group = (LLOcclusionCullingGroup*) n->getListener(0);
if (group && group->isOcclusionState(mState))
{
OctreeTraveler::traverse(n);
}
}
};
void LLOcclusionCullingGroup::clearOcclusionState(U32 state, S32 mode)
{
if (mode > STATE_MODE_SINGLE)
{
if (mode == STATE_MODE_DIFF)
{
LLSpatialClearOcclusionStateDiff clearer(state);
clearer.traverse(mOctreeNode);
}
else if (mode == STATE_MODE_BRANCH)
{
LLSpatialClearOcclusionState clearer(state);
clearer.traverse(mOctreeNode);
}
else
{
for (U32 i = 0; i < LLViewerCamera::NUM_CAMERAS; i++)
{
mOcclusionState[i] &= ~state;
}
}
}
else
{
if (state & OCCLUDED)
{
add(sNumObjectsUnoccluded, 1);
}
mOcclusionState[LLViewerCamera::sCurCameraID] &= ~state;
}
}
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_READBACK("Readback Occlusion");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_WAIT("Occlusion Wait");
BOOL LLOcclusionCullingGroup::earlyFail(LLCamera* camera, const LLVector4a* bounds)
{
if (camera->getOrigin().isExactlyZero())
{
return FALSE;
}
const F32 vel = SG_OCCLUSION_FUDGE*2.f;
LLVector4a fudge;
fudge.splat(vel);
const LLVector4a& c = bounds[0];
LLVector4a r;
r.setAdd(bounds[1], fudge);
/*if (r.magVecSquared() > 1024.0*1024.0)
{
return TRUE;
}*/
LLVector4a e;
e.load3(camera->getOrigin().mV);
LLVector4a min;
min.setSub(c,r);
LLVector4a max;
max.setAdd(c,r);
S32 lt = e.lessThan(min).getGatheredBits() & 0x7;
if (lt)
{
return FALSE;
}
S32 gt = e.greaterThan(max).getGatheredBits() & 0x7;
if (gt)
{
return FALSE;
}
return TRUE;
}
U32 LLOcclusionCullingGroup::getLastOcclusionIssuedTime()
{
return mOcclusionIssued[LLViewerCamera::sCurCameraID];
}
void LLOcclusionCullingGroup::checkOcclusion()
{
if (LLPipeline::sUseOcclusion > 1)
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_READBACK);
LLOcclusionCullingGroup* parent = (LLOcclusionCullingGroup*)getParent();
if (parent && parent->isOcclusionState(LLOcclusionCullingGroup::OCCLUDED))
{ //if the parent has been marked as occluded, the child is implicitly occluded
clearOcclusionState(QUERY_PENDING | DISCARD_QUERY);
}
else if (isOcclusionState(QUERY_PENDING))
{ //otherwise, if a query is pending, read it back
GLuint available = 0;
if (mOcclusionQuery[LLViewerCamera::sCurCameraID])
{
glGetQueryObjectuivARB(mOcclusionQuery[LLViewerCamera::sCurCameraID], GL_QUERY_RESULT_AVAILABLE_ARB, &available);
static LLCachedControl<bool> wait_for_query(gSavedSettings, "RenderSynchronousOcclusion", true);
if (wait_for_query && mOcclusionIssued[LLViewerCamera::sCurCameraID] < gFrameCount)
{ //query was issued last frame, wait until it's available
S32 max_loop = 1024;
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_WAIT);
while (!available && max_loop-- > 0)
{
//do some usefu work while we wait
F32 max_time = llmin(gFrameIntervalSeconds.value()*10.f, 1.f);
LLAppViewer::instance()->updateTextureThreads(max_time);
glGetQueryObjectuivARB(mOcclusionQuery[LLViewerCamera::sCurCameraID], GL_QUERY_RESULT_AVAILABLE_ARB, &available);
}
}
}
else
{
available = 1;
}
if (available)
{ //result is available, read it back, otherwise wait until next frame
GLuint res = 1;
if (!isOcclusionState(DISCARD_QUERY) && mOcclusionQuery[LLViewerCamera::sCurCameraID])
{
glGetQueryObjectuivARB(mOcclusionQuery[LLViewerCamera::sCurCameraID], GL_QUERY_RESULT_ARB, &res);
#if LL_TRACK_PENDING_OCCLUSION_QUERIES
sPendingQueries.erase(mOcclusionQuery[LLViewerCamera::sCurCameraID]);
#endif
}
else if (mOcclusionQuery[LLViewerCamera::sCurCameraID])
{ //delete the query to avoid holding onto hundreds of pending queries
releaseOcclusionQueryObjectName(mOcclusionQuery[LLViewerCamera::sCurCameraID]);
mOcclusionQuery[LLViewerCamera::sCurCameraID] = 0;
}
if (isOcclusionState(DISCARD_QUERY))
{
res = 2;
}
if (res > 0)
{
assert_states_valid(this);
clearOcclusionState(LLOcclusionCullingGroup::OCCLUDED, LLOcclusionCullingGroup::STATE_MODE_DIFF);
assert_states_valid(this);
}
else
{
assert_states_valid(this);
setOcclusionState(LLOcclusionCullingGroup::OCCLUDED, LLOcclusionCullingGroup::STATE_MODE_DIFF);
assert_states_valid(this);
}
clearOcclusionState(QUERY_PENDING | DISCARD_QUERY);
}
}
else if (mSpatialPartition->isOcclusionEnabled() && isOcclusionState(LLOcclusionCullingGroup::OCCLUDED))
{ //check occlusion has been issued for occluded node that has not had a query issued
assert_states_valid(this);
clearOcclusionState(LLOcclusionCullingGroup::OCCLUDED, LLOcclusionCullingGroup::STATE_MODE_DIFF);
assert_states_valid(this);
}
}
}
static LLTrace::BlockTimerStatHandle FTM_PUSH_OCCLUSION_VERTS("Push Occlusion");
static LLTrace::BlockTimerStatHandle FTM_SET_OCCLUSION_STATE("Occlusion State");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_EARLY_FAIL("Occlusion Early Fail");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_ALLOCATE("Allocate");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_BUILD("Build");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_BEGIN_QUERY("Begin Query");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_END_QUERY("End Query");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_SET_BUFFER("Set Buffer");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_DRAW_WATER("Draw Water");
static LLTrace::BlockTimerStatHandle FTM_OCCLUSION_DRAW("Draw");
void LLOcclusionCullingGroup::doOcclusion(LLCamera* camera, const LLVector4a* shift)
{
if (mSpatialPartition->isOcclusionEnabled() && LLPipeline::sUseOcclusion > 1)
{
//move mBounds to the agent space if necessary
LLVector4a bounds[2];
bounds[0] = mBounds[0];
bounds[1] = mBounds[1];
if(shift != NULL)
{
bounds[0].add(*shift);
}
F32 OCCLUSION_FUDGE_Z = SG_OCCLUSION_FUDGE; //<-- #Solution #2
if (LLDrawPool::POOL_WATER == mSpatialPartition->mDrawableType)
{
OCCLUSION_FUDGE_Z = 1.;
}
// Don't cull hole/edge water, unless we have the GL_ARB_depth_clamp extension
if (earlyFail(camera, bounds))
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_EARLY_FAIL);
setOcclusionState(LLOcclusionCullingGroup::DISCARD_QUERY);
assert_states_valid(this);
clearOcclusionState(LLOcclusionCullingGroup::OCCLUDED, LLOcclusionCullingGroup::STATE_MODE_DIFF);
assert_states_valid(this);
}
else
{
if (!isOcclusionState(QUERY_PENDING) || isOcclusionState(DISCARD_QUERY))
{
{ //no query pending, or previous query to be discarded
LL_RECORD_BLOCK_TIME(FTM_RENDER_OCCLUSION);
if (!mOcclusionQuery[LLViewerCamera::sCurCameraID])
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_ALLOCATE);
mOcclusionQuery[LLViewerCamera::sCurCameraID] = getNewOcclusionQueryObjectName();
}
// Depth clamp all water to avoid it being culled as a result of being
// behind the far clip plane, and in the case of edge water to avoid
// it being culled while still visible.
bool const use_depth_clamp = gGLManager.mHasDepthClamp &&
(mSpatialPartition->mDrawableType == LLDrawPool::POOL_WATER ||
mSpatialPartition->mDrawableType == LLDrawPool::POOL_VOIDWATER);
LLGLEnable clamp(use_depth_clamp ? GL_DEPTH_CLAMP : 0);
#if !LL_DARWIN
U32 mode = gGLManager.mHasOcclusionQuery2 ? GL_ANY_SAMPLES_PASSED : GL_SAMPLES_PASSED_ARB;
#else
U32 mode = GL_SAMPLES_PASSED_ARB;
#endif
#if LL_TRACK_PENDING_OCCLUSION_QUERIES
sPendingQueries.insert(mOcclusionQuery[LLViewerCamera::sCurCameraID]);
#endif
add(sOcclusionQueries, 1);
{
LL_RECORD_BLOCK_TIME(FTM_PUSH_OCCLUSION_VERTS);
//store which frame this query was issued on
mOcclusionIssued[LLViewerCamera::sCurCameraID] = gFrameCount;
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_BEGIN_QUERY);
glBeginQueryARB(mode, mOcclusionQuery[LLViewerCamera::sCurCameraID]);
}
LLGLSLShader* shader = LLGLSLShader::sCurBoundShaderPtr;
llassert(shader);
shader->uniform3fv(LLShaderMgr::BOX_CENTER, 1, bounds[0].getF32ptr());
shader->uniform3f(LLShaderMgr::BOX_SIZE, bounds[1][0]+SG_OCCLUSION_FUDGE,
bounds[1][1]+SG_OCCLUSION_FUDGE,
bounds[1][2]+OCCLUSION_FUDGE_Z);
if (!use_depth_clamp && mSpatialPartition->mDrawableType == LLDrawPool::POOL_VOIDWATER)
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_DRAW_WATER);
LLGLSquashToFarClip squash;
if (camera->getOrigin().isExactlyZero())
{ //origin is invalid, draw entire box
gPipeline.mCubeVB->drawRange(LLRender::TRIANGLE_FAN, 0, 7, 8, 0);
gPipeline.mCubeVB->drawRange(LLRender::TRIANGLE_FAN, 0, 7, 8, b111*8);
}
else
{
gPipeline.mCubeVB->drawRange(LLRender::TRIANGLE_FAN, 0, 7, 8, get_box_fan_indices(camera, bounds[0]));
}
}
else
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_DRAW);
if (camera->getOrigin().isExactlyZero())
{ //origin is invalid, draw entire box
gPipeline.mCubeVB->drawRange(LLRender::TRIANGLE_FAN, 0, 7, 8, 0);
gPipeline.mCubeVB->drawRange(LLRender::TRIANGLE_FAN, 0, 7, 8, b111*8);
}
else
{
gPipeline.mCubeVB->drawRange(LLRender::TRIANGLE_FAN, 0, 7, 8, get_box_fan_indices(camera, bounds[0]));
}
}
{
LL_RECORD_BLOCK_TIME(FTM_OCCLUSION_END_QUERY);
glEndQueryARB(mode);
}
}
}
{
LL_RECORD_BLOCK_TIME(FTM_SET_OCCLUSION_STATE);
setOcclusionState(LLOcclusionCullingGroup::QUERY_PENDING);
clearOcclusionState(LLOcclusionCullingGroup::DISCARD_QUERY);
}
}
}
}
}
//-------------------------------------------------------------------------------------------
//end of occulsion culling functions and classes
//-------------------------------------------------------------------------------------------
//-----------------------------------------------------------------------------------
//class LLViewerOctreePartition definitions
//-----------------------------------------------------------------------------------
LLViewerOctreePartition::LLViewerOctreePartition() :
mRegionp(NULL),
mOcclusionEnabled(TRUE),
mDrawableType(0),
mLODSeed(0),
mLODPeriod(1)
{
LLVector4a center, size;
center.splat(0.f);
size.splat(1.f);
mOctree = new OctreeRoot(center,size, NULL);
}
LLViewerOctreePartition::~LLViewerOctreePartition()
{
delete mOctree;
mOctree = NULL;
}
BOOL LLViewerOctreePartition::isOcclusionEnabled()
{
return mOcclusionEnabled || LLPipeline::sUseOcclusion > 2;
}
//-----------------------------------------------------------------------------------
//class LLViewerOctreeCull definitions
//-----------------------------------------------------------------------------------
//virtual
bool LLViewerOctreeCull::earlyFail(LLViewerOctreeGroup* group)
{
return false;
}
//virtual
void LLViewerOctreeCull::traverse(const OctreeNode* n)
{
LLViewerOctreeGroup* group = (LLViewerOctreeGroup*) n->getListener(0);
if (earlyFail(group))
{
return;
}
if (mRes == 2 ||
(mRes && group->hasState(LLViewerOctreeGroup::SKIP_FRUSTUM_CHECK)))
{ //fully in, just add everything
OctreeTraveler::traverse(n);
}
else
{
mRes = frustumCheck(group);
if (mRes)
{ //at least partially in, run on down
OctreeTraveler::traverse(n);
}
mRes = 0;
}
}
//------------------------------------------
//agent space group culling
S32 LLViewerOctreeCull::AABBInFrustumNoFarClipGroupBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInFrustumNoFarClip(group->mBounds[0], group->mBounds[1]);
}
S32 LLViewerOctreeCull::AABBSphereIntersectGroupExtents(const LLViewerOctreeGroup* group)
{
return AABBSphereIntersect(group->mExtents[0], group->mExtents[1], mCamera->getOrigin(), mCamera->mFrustumCornerDist);
}
S32 LLViewerOctreeCull::AABBInFrustumGroupBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInFrustum(group->mBounds[0], group->mBounds[1]);
}
//------------------------------------------
//------------------------------------------
//agent space object set culling
S32 LLViewerOctreeCull::AABBInFrustumNoFarClipObjectBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInFrustumNoFarClip(group->mObjectBounds[0], group->mObjectBounds[1]);
}
S32 LLViewerOctreeCull::AABBSphereIntersectObjectExtents(const LLViewerOctreeGroup* group)
{
return AABBSphereIntersect(group->mObjectExtents[0], group->mObjectExtents[1], mCamera->getOrigin(), mCamera->mFrustumCornerDist);
}
S32 LLViewerOctreeCull::AABBInFrustumObjectBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInFrustum(group->mObjectBounds[0], group->mObjectBounds[1]);
}
//------------------------------------------
//------------------------------------------
//local regional space group culling
S32 LLViewerOctreeCull::AABBInRegionFrustumNoFarClipGroupBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInRegionFrustumNoFarClip(group->mBounds[0], group->mBounds[1]);
}
S32 LLViewerOctreeCull::AABBInRegionFrustumGroupBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInRegionFrustum(group->mBounds[0], group->mBounds[1]);
}
S32 LLViewerOctreeCull::AABBRegionSphereIntersectGroupExtents(const LLViewerOctreeGroup* group, const LLVector3& shift)
{
return AABBSphereIntersect(group->mExtents[0], group->mExtents[1], mCamera->getOrigin() - shift, mCamera->mFrustumCornerDist);
}
//------------------------------------------
//------------------------------------------
//local regional space object culling
S32 LLViewerOctreeCull::AABBInRegionFrustumObjectBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInRegionFrustum(group->mObjectBounds[0], group->mObjectBounds[1]);
}
S32 LLViewerOctreeCull::AABBInRegionFrustumNoFarClipObjectBounds(const LLViewerOctreeGroup* group)
{
return mCamera->AABBInRegionFrustumNoFarClip(group->mObjectBounds[0], group->mObjectBounds[1]);
}
S32 LLViewerOctreeCull::AABBRegionSphereIntersectObjectExtents(const LLViewerOctreeGroup* group, const LLVector3& shift)
{
return AABBSphereIntersect(group->mObjectExtents[0], group->mObjectExtents[1], mCamera->getOrigin() - shift, mCamera->mFrustumCornerDist);
}
//------------------------------------------
//check if the objects projection large enough
bool LLViewerOctreeCull::checkProjectionArea(const LLVector4a& center, const LLVector4a& size, const LLVector3& shift, F32 pixel_threshold, F32 near_radius)
{
LLVector3 local_orig = mCamera->getOrigin() - shift;
LLVector4a origin;
origin.load3(local_orig.mV);
LLVector4a lookAt;
lookAt.setSub(center, origin);
F32 distance = lookAt.getLength3().getF32();
if(distance <= near_radius)
{
return true; //always load close-by objects
}
// treat object as if it were near_radius meters closer than it actually was.
// this allows us to get some temporal coherence on visibility...objects that can be reached quickly will tend to be visible
distance -= near_radius;
F32 squared_rad = size.dot3(size).getF32();
return squared_rad / distance > pixel_threshold;
}
//virtual
bool LLViewerOctreeCull::checkObjects(const OctreeNode* branch, const LLViewerOctreeGroup* group)
{
if (branch->getElementCount() == 0) //no elements
{
return false;
}
else if (branch->getChildCount() == 0) //leaf state, already checked tightest bounding box
{
return true;
}
else if (mRes == 1 && !frustumCheckObjects(group)) //no objects in frustum
{
return false;
}
return true;
}
//virtual
void LLViewerOctreeCull::preprocess(LLViewerOctreeGroup* group)
{
}
//virtual
void LLViewerOctreeCull::processGroup(LLViewerOctreeGroup* group)
{
}
//virtual
void LLViewerOctreeCull::visit(const OctreeNode* branch)
{
LLViewerOctreeGroup* group = (LLViewerOctreeGroup*) branch->getListener(0);
preprocess(group);
if (checkObjects(branch, group))
{
processGroup(group);
}
}
//--------------------------------------------------------------
//class LLViewerOctreeDebug
//virtual
void LLViewerOctreeDebug::visit(const OctreeNode* branch)
{
#if 0
LL_INFOS() << "Node: " << (U32)branch << " # Elements: " << branch->getElementCount() << " # Children: " << branch->getChildCount() << LL_ENDL;
for (U32 i = 0; i < branch->getChildCount(); i++)
{
LL_INFOS() << "Child " << i << " : " << (U32)branch->getChild(i) << LL_ENDL;
}
#endif
LLViewerOctreeGroup* group = (LLViewerOctreeGroup*) branch->getListener(0);
processGroup(group);
}
//virtual
void LLViewerOctreeDebug::processGroup(LLViewerOctreeGroup* group)
{
#if 0
const LLVector4a* vec4 = group->getBounds();
LLVector3 vec[2];
vec[0].set(vec4[0].getF32ptr());
vec[1].set(vec4[1].getF32ptr());
LL_INFOS() << "Bounds: " << vec[0] << " : " << vec[1] << LL_ENDL;
vec4 = group->getExtents();
vec[0].set(vec4[0].getF32ptr());
vec[1].set(vec4[1].getF32ptr());
LL_INFOS() << "Extents: " << vec[0] << " : " << vec[1] << LL_ENDL;
vec4 = group->getObjectBounds();
vec[0].set(vec4[0].getF32ptr());
vec[1].set(vec4[1].getF32ptr());
LL_INFOS() << "ObjectBounds: " << vec[0] << " : " << vec[1] << LL_ENDL;
vec4 = group->getObjectExtents();
vec[0].set(vec4[0].getF32ptr());
vec[1].set(vec4[1].getF32ptr());
LL_INFOS() << "ObjectExtents: " << vec[0] << " : " << vec[1] << LL_ENDL;
#endif
}
//--------------------------------------------------------------
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