/** * @file lldrawable.cpp * @brief LLDrawable class implementation * * Copyright (c) 2002-$CurrentYear$, Linden Research, Inc. * $License$ */ #include "llviewerprecompiledheaders.h" #include "lldrawable.h" // library includes #include "material_codes.h" // viewer includes #include "llcriticaldamp.h" #include "llface.h" #include "lllightconstants.h" #include "llsky.h" #include "llsurfacepatch.h" #include "llviewercamera.h" #include "llviewerregion.h" #include "llvolume.h" #include "llvoavatar.h" #include "llvovolume.h" #include "llvosurfacepatch.h" // for debugging #include "llworld.h" #include "pipeline.h" #include "llspatialpartition.h" #include "llviewerobjectlist.h" #include "llviewerwindow.h" const F32 MIN_INTERPOLATE_DISTANCE_SQUARED = 0.001f * 0.001f; const F32 MAX_INTERPOLATE_DISTANCE_SQUARED = 10.f * 10.f; const F32 OBJECT_DAMPING_TIME_CONSTANT = 0.06f; const F32 MIN_SHADOW_CASTER_RADIUS = 2.0f; //////////////////////// // // Inline implementations. // // ////////////////////////////// // // Drawable code // // // static U32 LLDrawable::sCurVisible = 0; U32 LLDrawable::sNumZombieDrawables = 0; F32 LLDrawable::sCurPixelAngle = 0; LLDynamicArrayPtr > LLDrawable::sDeadList; #define FORCE_INVISIBLE_AREA 16.f // static void LLDrawable::incrementVisible() { sCurVisible++; sCurPixelAngle = (F32) gViewerWindow->getWindowDisplayHeight()/gCamera->getView(); } void LLDrawable::init() { // mXform mParent = NULL; mRenderType = 0; mCurrentScale = LLVector3(1,1,1); mDistanceWRTCamera = 0.0f; // mUVRect mUVZ = 0.f; // mLightSet // mBlockSet // mSavePos mQuietCount = 0; mState = 0; mVObjp = NULL; // mFaces mSpatialGroupp = NULL; mSpatialGroupOffset = -1; mVisible = 0; mRadius = 0.f; mSunShadowFactor = 1.f; mGeneration = -1; mBinRadius = 1.f; mSpatialBridge = NULL; } // static void LLDrawable::initClass() { } void LLDrawable::destroy() { if (isDead()) { sNumZombieDrawables--; } std::for_each(mFaces.begin(), mFaces.end(), DeletePointer()); mFaces.clear(); /*if (!(sNumZombieDrawables % 10)) { llinfos << "- Zombie drawables: " << sNumZombieDrawables << llendl; }*/ } void LLDrawable::markDead() { if (isDead()) { llwarns << "Warning! Marking dead multiple times!" << llendl; return; } if (mSpatialBridge) { mSpatialBridge->markDead(); mSpatialBridge = NULL; } sNumZombieDrawables++; // We're dead. Free up all of our references to other objects setState(DEAD); cleanupReferences(); // sDeadList.put(this); } LLVOVolume* LLDrawable::getVOVolume() const { LLViewerObject* objectp = mVObjp; if ( !isDead() && objectp && (objectp->getPCode() == LL_PCODE_VOLUME)) { return ((LLVOVolume*)objectp); } else { return NULL; } } BOOL LLDrawable::isLight() const { LLViewerObject* objectp = mVObjp; if ( objectp && (objectp->getPCode() == LL_PCODE_VOLUME) && !isDead()) { return ((LLVOVolume*)objectp)->getIsLight(); } else { return FALSE; } } void LLDrawable::clearLightSet() { // Remove this object from any object which has it as a light for (drawable_set_t::iterator iter = mLightSet.begin(); iter != mLightSet.end(); iter++) { LLDrawable *targetp = *iter; if (targetp != this && !targetp->isDead()) { targetp->mLightSet.erase(this); gPipeline.markRelight(targetp); } } mLightSet.clear(); } void LLDrawable::cleanupReferences() { LLFastTimer t(LLFastTimer::FTM_PIPELINE); std::for_each(mFaces.begin(), mFaces.end(), DeletePointer()); mFaces.clear(); clearLightSet(); gObjectList.removeDrawable(this); mBlockSet.clear(); gPipeline.unlinkDrawable(this); // Cleanup references to other objects mVObjp = NULL; mParent = NULL; } void LLDrawable::cleanupDeadDrawables() { /* S32 i; for (i = 0; i < sDeadList.count(); i++) { if (sDeadList[i]->getNumRefs() > 1) { llwarns << "Dead drawable has " << sDeadList[i]->getNumRefs() << " remaining refs" << llendl; gPipeline.findReferences(sDeadList[i]); } } */ sDeadList.reset(); } S32 LLDrawable::findReferences(LLDrawable *drawablep) { S32 count = 0; if (mLightSet.count(drawablep) > 0) { llinfos << this << ": lightset reference" << llendl; count++; } if (mBlockSet.count(drawablep) > 0) { llinfos << this << ": blockset reference" << llendl; count++; } if (mParent == drawablep) { llinfos << this << ": parent reference" << llendl; count++; } return count; } #if 0 // SJB: This is SLOW, so we don't want to allow it (we don't currently use it) void LLDrawable::removeFace(const S32 i) { LLFace *face= mFaces[i]; if (face) { mFaces.erase(mFaces.begin() + i); delete face; } } #endif LLFace* LLDrawable::addFace(LLFacePool *poolp, LLViewerImage *texturep) { LLMemType mt(LLMemType::MTYPE_DRAWABLE); LLFace *face = new LLFace(this, mVObjp); if (face) { mFaces.push_back(face); if (poolp) { face->setPool(poolp, texturep); } if (isState(UNLIT)) { face->setState(LLFace::FULLBRIGHT); } } return face; } LLFace* LLDrawable::addFace(const LLTextureEntry *te, LLViewerImage *texturep) { LLMemType mt(LLMemType::MTYPE_DRAWABLE); LLFace *face = new LLFace(this, mVObjp); face->setTEOffset(mFaces.size()); face->setTexture(texturep); face->setPoolType(gPipeline.getPoolTypeFromTE(te, texturep)); mFaces.push_back(face); if (isState(UNLIT)) { face->setState(LLFace::FULLBRIGHT); } return face; } void LLDrawable::setNumFaces(const S32 newFaces, LLFacePool *poolp, LLViewerImage *texturep) { if (newFaces == (S32)mFaces.size()) { return; } else if (newFaces < (S32)mFaces.size()) { std::for_each(mFaces.begin() + newFaces, mFaces.end(), DeletePointer()); mFaces.erase(mFaces.begin() + newFaces, mFaces.end()); } else // (newFaces > mFaces.size()) { mFaces.reserve(newFaces); for (int i = mFaces.size(); i= (S32)mFaces.size()/2) { return; } else if (newFaces < (S32)mFaces.size()) { std::for_each(mFaces.begin() + newFaces, mFaces.end(), DeletePointer()); mFaces.erase(mFaces.begin() + newFaces, mFaces.end()); } else // (newFaces > mFaces.size()) { mFaces.reserve(newFaces); for (int i = mFaces.size(); imFaces.size(); mFaces.reserve(face_count); for (U32 i = 0; i < src->mFaces.size(); i++) { LLFace* facep = src->mFaces[i]; facep->setDrawable(this); mFaces.push_back(facep); } src->mFaces.clear(); } void LLDrawable::deleteFaces(S32 offset, S32 count) { face_list_t::iterator face_begin = mFaces.begin() + offset; face_list_t::iterator face_end = face_begin + count; std::for_each(face_begin, face_end, DeletePointer()); mFaces.erase(face_begin, face_end); } void LLDrawable::update() { llerrs << "Shouldn't be called!" << llendl; } void LLDrawable::updateMaterial() { } void LLDrawable::makeActive() { #if !LL_RELEASE_FOR_DOWNLOAD if (mVObjp.notNull()) { U32 pcode = mVObjp->getPCode(); if (pcode == LLViewerObject::LL_VO_WATER || pcode == LLViewerObject::LL_VO_SURFACE_PATCH || pcode == LLViewerObject::LL_VO_PART_GROUP || pcode == LLViewerObject::LL_VO_CLOUDS || pcode == LLViewerObject::LL_VO_STARS || pcode == LLViewerObject::LL_VO_GROUND || pcode == LLViewerObject::LL_VO_SKY) { llerrs << "Static viewer object has active drawable!" << llendl; } } #endif if (!isState(ACTIVE)) // && mGeneration > 0) { setState(ACTIVE); //parent must be made active first if (!isRoot() && !mParent->isActive()) { mParent->makeActive(); } gPipeline.setActive(this, TRUE); //all child objects must also be active for (U32 i = 0; i < getChildCount(); i++) { LLDrawable* drawable = getChild(i); if (drawable) { drawable->makeActive(); } } if (mVObjp->getPCode() == LL_PCODE_VOLUME) { if (mVObjp->getVolume()->getPathType() == LL_PCODE_PATH_FLEXIBLE) { return; } } clearState(LLDrawable::LIGHTING_BUILT); if (mVObjp->getPCode() == LL_PCODE_VOLUME) { gPipeline.markRebuild(this, LLDrawable::REBUILD_VOLUME, TRUE); } } updatePartition(); if (isRoot()) { mQuietCount = 0; } else { getParent()->mQuietCount = 0; } } void LLDrawable::makeStatic() { if (isState(ACTIVE)) { clearState(ACTIVE); gPipeline.setActive(this, FALSE); if (mParent.notNull() && mParent->isActive()) { llwarns << "Drawable becamse static with active parent!" << llendl; } S32 child_count = mVObjp->mChildList.size(); for (S32 child_num = 0; child_num < child_count; child_num++) { LLDrawable* child_drawable = mVObjp->mChildList[child_num]->mDrawable; if (child_drawable) { if (child_drawable->getParent() != this) { llwarns << "Child drawable has unknown parent." << llendl; } child_drawable->makeStatic(); } } gPipeline.markRelight(this); if (mVObjp->getPCode() == LL_PCODE_VOLUME) { gPipeline.markRebuild(this, LLDrawable::REBUILD_VOLUME, TRUE); } if (mSpatialBridge) { mSpatialBridge->markDead(); setSpatialBridge(NULL); } } updatePartition(); } // Returns "distance" between target destination and resulting xfrom F32 LLDrawable::updateXform(BOOL undamped) { BOOL damped = !undamped; // Position LLVector3 old_pos(mXform.getPosition()); LLVector3 target_pos; if (mXform.isRoot()) { // get root position in your agent's region target_pos = mVObjp->getPositionAgent(); } else { // parent-relative position target_pos = mVObjp->getPosition(); } // Rotation LLQuaternion old_rot(mXform.getRotation()); LLQuaternion target_rot = mVObjp->getRotation(); //scaling LLVector3 target_scale = mVObjp->getScale(); LLVector3 old_scale = mCurrentScale; LLVector3 dest_scale = target_scale; // Damping F32 dist_squared = 0.f; F32 scaled = 0.f; if (damped && mDistanceWRTCamera > 0.0f) { F32 lerp_amt = llclamp(LLCriticalDamp::getInterpolant(OBJECT_DAMPING_TIME_CONSTANT), 0.f, 1.f); LLVector3 new_pos = lerp(old_pos, target_pos, lerp_amt); dist_squared = dist_vec_squared(new_pos, target_pos); LLQuaternion new_rot = nlerp(lerp_amt, old_rot, target_rot); dist_squared += (1.f - dot(new_rot, target_rot)) * 10.f; LLVector3 new_scale = lerp(old_scale, target_scale, lerp_amt); scaled = dist_vec_squared(new_scale, target_scale); dist_squared += scaled; F32 camdist2 = (mDistanceWRTCamera * mDistanceWRTCamera); if ((dist_squared >= MIN_INTERPOLATE_DISTANCE_SQUARED * camdist2) && (dist_squared <= MAX_INTERPOLATE_DISTANCE_SQUARED)) { // interpolate target_pos = new_pos; target_rot = new_rot; target_scale = new_scale; if (scaled >= MIN_INTERPOLATE_DISTANCE_SQUARED) { //scaling requires an immediate rebuild gPipeline.markRebuild(this, LLDrawable::REBUILD_POSITION, TRUE); } } else { // snap to final position dist_squared = 0.0f; } } // Update mXform.setPosition(target_pos); mXform.setRotation(target_rot); mXform.setScale(LLVector3(1,1,1)); //no scale in drawable transforms (IT'S A RULE!) mXform.updateMatrix(); mCurrentScale = target_scale; return dist_squared; } void LLDrawable::setRadius(F32 radius) { if (mRadius != radius) { mRadius = radius; } } void LLDrawable::moveUpdatePipeline(BOOL moved) { makeActive(); // Update the face centers. for (S32 i = 0; i < getNumFaces(); i++) { getFace(i)->updateCenterAgent(); } if (moved || !isState(LLDrawable::BUILT)) // moved since last frame { LLVector3 tmp = mSavePos - mXform.getPositionW(); F32 dist = tmp.magVecSquared(); // moved since last _update_ if (dist > 1.0f || !isState(LLDrawable::BUILT) || isLight()) { mSavePos = mXform.getPositionW(); gPipeline.markRelight(this); } } } void LLDrawable::movePartition() { LLSpatialPartition* part = getSpatialPartition(); if (part) { part->move(this, getSpatialGroup()); } } BOOL LLDrawable::updateMove() { if (isDead()) { llwarns << "Update move on dead drawable!" << llendl; return TRUE; } if (mVObjp.isNull()) { return FALSE; } makeActive(); BOOL done; if (isState(MOVE_UNDAMPED)) { done = updateMoveUndamped(); } else { done = updateMoveDamped(); } return done; } BOOL LLDrawable::updateMoveUndamped() { F32 dist_squared = updateXform(TRUE); mGeneration++; if (!isState(LLDrawable::INVISIBLE)) { BOOL moved = (dist_squared > 0.001f && dist_squared < 255.99f); moveUpdatePipeline(moved); mVObjp->updateText(); } mVObjp->clearChanged(LLXform::MOVED); return TRUE; } void LLDrawable::updatePartition() { if (!getVOVolume()) { movePartition(); } else if (mSpatialBridge) { gPipeline.markMoved(mSpatialBridge, FALSE); } else { //a child prim moved and needs its verts regenerated gPipeline.markRebuild(this, LLDrawable::REBUILD_POSITION, TRUE); } } BOOL LLDrawable::updateMoveDamped() { F32 dist_squared = updateXform(FALSE); mGeneration++; if (!isState(LLDrawable::INVISIBLE)) { BOOL moved = (dist_squared > 0.001f && dist_squared < 128.0f); moveUpdatePipeline(moved); mVObjp->updateText(); } BOOL done_moving = (dist_squared == 0.0f) ? TRUE : FALSE; if (done_moving) { mVObjp->clearChanged(LLXform::MOVED); } return done_moving; } void LLDrawable::updateDistance(LLCamera& camera) { //switch LOD with the spatial group to avoid artifacts LLSpatialGroup* sg = getSpatialGroup(); LLVector3 pos; if (!sg || sg->changeLOD()) { LLVOVolume* volume = getVOVolume(); if (volume) { volume->updateRelativeXform(); pos = LLVector3(0,0,0) * volume->getRelativeXform(); for (S32 i = 0; i < getNumFaces(); i++) { LLFace* facep = getFace(i); if (facep->getPoolType() == LLDrawPool::POOL_ALPHA) { LLVector3 box = (facep->mExtents[1] - facep->mExtents[0]) * 0.25f; LLVector3 v = (facep->mCenterLocal-camera.getOrigin()); LLVector3 at = camera.getAtAxis(); for (U32 j = 0; j < 3; j++) { v.mV[j] -= box.mV[j] * at.mV[j]; } facep->mDistance = v * camera.getAtAxis(); } } } else { pos = LLVector3(getPositionGroup()); } pos -= camera.getOrigin(); mDistanceWRTCamera = llround(pos.magVec(), 0.01f); mVObjp->updateLOD(); } } void LLDrawable::updateTexture() { LLMemType mt(LLMemType::MTYPE_DRAWABLE); if (isDead()) { llwarns << "Dead drawable updating texture!" << llendl; return; } if (getNumFaces() != mVObjp->getNumTEs()) { //drawable is transitioning its face count return; } if (getVOVolume()) { if (!isActive()) { gPipeline.markMoved(this); } else { if (isRoot()) { mQuietCount = 0; } else { getParent()->mQuietCount = 0; } } gPipeline.markRebuild(this, LLDrawable::REBUILD_MATERIAL, TRUE); } } BOOL LLDrawable::updateGeometry(BOOL priority) { llassert(mVObjp.notNull()); BOOL res = mVObjp->updateGeometry(this); if (isState(REBUILD_LIGHTING)) { updateLighting(priority ? FALSE : TRUE); // only do actual lighting for non priority updates if (priority) { gPipeline.markRelight(this); // schedule non priority update } else { clearState(REBUILD_LIGHTING); } } return res; } void LLDrawable::shiftPos(const LLVector3 &shift_vector) { if (isDead()) { llwarns << "Shifting dead drawable" << llendl; return; } if (mParent) { mXform.setPosition(mVObjp->getPosition()); } else { mXform.setPosition(mVObjp->getPositionAgent()); } mXform.setRotation(mVObjp->getRotation()); mXform.setScale(1,1,1); mXform.updateMatrix(); if (isStatic()) { gPipeline.markRebuild(this, LLDrawable::REBUILD_GEOMETRY, TRUE); for (S32 i = 0; i < getNumFaces(); i++) { LLFace *facep = getFace(i); facep->mCenterAgent += shift_vector; facep->mExtents[0] += shift_vector; facep->mExtents[1] += shift_vector; if (facep->hasGeometry()) { facep->mVertexBuffer = NULL; facep->mLastVertexBuffer = NULL; } } mExtents[0] += shift_vector; mExtents[1] += shift_vector; mPositionGroup += LLVector3d(shift_vector); } else if (mSpatialBridge) { mSpatialBridge->shiftPos(shift_vector); } mSavePos = mXform.getPositionW(); mVObjp->onShift(shift_vector); } const LLVector3& LLDrawable::getBounds(LLVector3& min, LLVector3& max) const { mXform.getMinMax(min,max); return mXform.getPositionW(); } const LLVector3* LLDrawable::getSpatialExtents() const { return mExtents; } void LLDrawable::setSpatialExtents(LLVector3 min, LLVector3 max) { LLVector3 size = max - min; mExtents[0] = min; mExtents[1] = max; } void LLDrawable::setPositionGroup(const LLVector3d& pos) { mPositionGroup.setVec(pos); } void LLDrawable::updateSpatialExtents() { if (mVObjp) { mVObjp->updateSpatialExtents(mExtents[0], mExtents[1]); } updateBinRadius(); if (mSpatialBridge.notNull()) { mPositionGroup.setVec(0,0,0); } } void LLDrawable::updateBinRadius() { if (mVObjp.notNull()) { mBinRadius = mVObjp->getBinRadius(); } else { mBinRadius = getRadius()*4.f; } } void LLDrawable::updateLightSet() { if (isDead()) { llwarns << "Updating light set for dead drawable!" << llendl; return; } LLSpatialPartition* part = gPipeline.getSpatialPartition(LLPipeline::PARTITION_VOLUME); LLVOVolume* light = getVOVolume(); if (isLight() && light) { // mLightSet points to lit objects for (drawable_set_t::iterator iter = mLightSet.begin(); iter != mLightSet.end(); iter++) { gPipeline.markRelight(*iter); } mLightSet.clear(); part->getObjects(getPositionAgent(), light->getLightRadius(), mLightSet); for (drawable_set_t::iterator iter = mLightSet.begin(); iter != mLightSet.end(); iter++) { gPipeline.markRelight(*iter); } } else { // mLightSet points to nearby lights mLightSet.clear(); part->getLights(getPositionAgent(), getRadius(), mLightSet); const drawable_set_t::size_type MAX_LIGHTS = 16; if (mLightSet.size() > MAX_LIGHTS) { typedef std::set > > sorted_pair_set_t; sorted_pair_set_t sorted_set; for (drawable_set_t::iterator iter = mLightSet.begin(); iter != mLightSet.end(); iter++) { LLDrawable* drawable = *iter; LLVector3 dvec = drawable->getPositionAgent() - getPositionAgent(); F32 dist2 = dvec.magVecSquared(); sorted_set.insert(std::make_pair(dist2, drawable)); } mLightSet.clear(); S32 count = 0; for (sorted_pair_set_t::iterator iter = sorted_set.begin(); iter != sorted_set.end(); iter++) { if (++count > 16) break; mLightSet.insert((*iter).second); } } } } void LLDrawable::updateSpecialHoverCursor(BOOL enabled) { // TODO: maintain a list of objects that have special // hover cursors, then use that list for per-frame // hover cursor selection. JC } BOOL LLDrawable::updateLighting(BOOL do_lighting) { if (do_lighting) { if (gPipeline.getLightingDetail() >= 2 && (getLit() || isLight())) { LLFastTimer t(LLFastTimer::FTM_UPDATE_LIGHTS); updateLightSet(); do_lighting = isLight() ? FALSE : TRUE; } else { do_lighting = FALSE; } } if (gPipeline.getLightingDetail() >= 2) { LLFastTimer t(LLFastTimer::FTM_GEO_LIGHT); if (mVObjp->updateLighting(do_lighting)) { setState(LIGHTING_BUILT); } } return TRUE; } void LLDrawable::applyLightsAsPoint(LLColor4& result) { LLMemType mt1(LLMemType::MTYPE_DRAWABLE); LLVector3 point_agent(getPositionAgent()); LLVector3 normal(-gCamera->getXAxis()); // make point agent face camera F32 sun_int = normal * gPipeline.mSunDir; LLColor4 color(gSky.getTotalAmbientColor()); color += gPipeline.mSunDiffuse * sun_int; for (drawable_set_t::iterator iter = mLightSet.begin(); iter != mLightSet.end(); ++iter) { LLDrawable* drawable = *iter; LLVOVolume* light = drawable->getVOVolume(); if (!light) { continue; } LLColor4 light_color; light->calcLightAtPoint(point_agent, normal, light_color); color += light_color; } // Clamp the color... color.mV[0] = llmax(color.mV[0], 0.f); color.mV[1] = llmax(color.mV[1], 0.f); color.mV[2] = llmax(color.mV[2], 0.f); F32 max_color = llmax(color.mV[0], color.mV[1], color.mV[2]); if (max_color > 1.f) { color *= 1.f/max_color; } result = color; } F32 LLDrawable::getVisibilityRadius() const { if (isDead()) { return 0.f; } else if (isLight()) { return llmax(getRadius(), getVOVolume()->getLightRadius()); } else { return getRadius(); } } void LLDrawable::updateUVMinMax() { } void LLDrawable::setSpatialGroup(LLSpatialGroup *groupp, const S32 offset) { mSpatialGroupp = groupp; if (mSpatialGroupp) { mSpatialGroupOffset = offset; } else { mSpatialGroupOffset = -1; } } LLSpatialPartition* LLDrawable::getSpatialPartition() { LLSpatialPartition* retval = NULL; if (!mVObjp || !getVOVolume() || isStatic()) { retval = gPipeline.getSpatialPartition((LLViewerObject*) mVObjp); } else if (isRoot()) { //must be an active volume if (!mSpatialBridge) { if (mVObjp->isHUDAttachment()) { setSpatialBridge(new LLHUDBridge(this)); } else { setSpatialBridge(new LLVolumeBridge(this)); } } return mSpatialBridge->asPartition(); } else { retval = getParent()->getSpatialPartition(); } if (retval && mSpatialBridge.notNull()) { mSpatialBridge->markDead(); setSpatialBridge(NULL); } return retval; } BOOL LLDrawable::isVisible() const { if (mVisible == sCurVisible) { return TRUE; } if (isActive()) { if (isRoot()) { LLSpatialGroup* group = mSpatialBridge.notNull() ? mSpatialBridge->getSpatialGroup() : getSpatialGroup(); if (!group || group->isVisible()) { mVisible = sCurVisible; return TRUE; } } else { if (getParent()->isVisible()) { mVisible = sCurVisible; return TRUE; } } } else { LLSpatialGroup* group = getSpatialGroup(); if (!group || group->isVisible()) { mVisible = sCurVisible; return TRUE; } } return FALSE; } //======================================= // Spatial Partition Bridging Drawable //======================================= LLSpatialBridge::LLSpatialBridge(LLDrawable* root, U32 data_mask) : LLSpatialPartition(data_mask, FALSE) { mDrawable = root; root->setSpatialBridge(this); mRenderType = mDrawable->mRenderType; mDrawableType = mDrawable->mRenderType; mPartitionType = LLPipeline::PARTITION_VOLUME; mOctree->balance(); gPipeline.getSpatialPartition(mPartitionType)->put(this); } LLSpatialBridge::~LLSpatialBridge() { if (getSpatialGroup()) { gPipeline.getSpatialPartition(mPartitionType)->remove(this, getSpatialGroup()); } } void LLSpatialBridge::updateSpatialExtents() { LLSpatialGroup* root = (LLSpatialGroup*) mOctree->getListener(0); { LLFastTimer ftm(LLFastTimer::FTM_CULL_REBOUND); root->rebound(); } LLXformMatrix* mat = mDrawable->getXform(); LLVector3 offset = root->mBounds[0]; LLVector3 size = root->mBounds[1]; LLVector3 center = LLVector3(0,0,0) * mat->getWorldMatrix(); LLQuaternion rotation = LLQuaternion(mat->getWorldMatrix()); offset *= rotation; center += offset; LLVector3 v[4]; //get 4 corners of bounding box v[0] = (size * rotation); v[1] = (LLVector3(-size.mV[0], -size.mV[1], size.mV[2]) * rotation); v[2] = (LLVector3(size.mV[0], -size.mV[1], -size.mV[2]) * rotation); v[3] = (LLVector3(-size.mV[0], size.mV[1], -size.mV[2]) * rotation); LLVector3& newMin = mExtents[0]; LLVector3& newMax = mExtents[1]; newMin = newMax = center; for (U32 i = 0; i < 4; i++) { for (U32 j = 0; j < 3; j++) { F32 delta = fabsf(v[i].mV[j]); F32 min = center.mV[j] - delta; F32 max = center.mV[j] + delta; if (min < newMin.mV[j]) { newMin.mV[j] = min; } if (max > newMax.mV[j]) { newMax.mV[j] = max; } } } LLVector3 diagonal = newMax - newMin; mRadius = diagonal.magVec() * 0.5f; mPositionGroup.setVec((newMin + newMax) * 0.5f); updateBinRadius(); } void LLSpatialBridge::updateBinRadius() { mBinRadius = llmin((F32) mOctree->getSize().mdV[0]*0.5f, 256.f); } LLCamera LLSpatialBridge::transformCamera(LLCamera& camera) { LLCamera ret = camera; LLXformMatrix* mat = mDrawable->getXform(); LLVector3 center = LLVector3(0,0,0) * mat->getWorldMatrix(); LLQuaternion rotation = LLQuaternion(mat->getWorldMatrix()); LLVector3 delta = ret.getOrigin() - center; LLQuaternion rot = ~mat->getRotation(); delta *= rot; LLVector3 lookAt = ret.getAtAxis(); LLVector3 up_axis = ret.getUpAxis(); LLVector3 left_axis = ret.getLeftAxis(); lookAt *= rot; up_axis *= rot; left_axis *= rot; ret.setOrigin(delta); ret.setAxes(lookAt, left_axis, up_axis); return ret; } void LLDrawable::setVisible(LLCamera& camera, std::vector* results, BOOL for_select) { mVisible = sCurVisible; #if 0 && !LL_RELEASE_FOR_DOWNLOAD //crazy paranoid rules checking if (getVOVolume()) { if (!isRoot()) { if (isActive() && !mParent->isActive()) { llerrs << "Active drawable has static parent!" << llendl; } if (isStatic() && !mParent->isStatic()) { llerrs << "Static drawable has active parent!" << llendl; } if (mSpatialBridge) { llerrs << "Child drawable has spatial bridge!" << llendl; } } else if (isActive() && !mSpatialBridge) { llerrs << "Active root drawable has no spatial bridge!" << llendl; } else if (isStatic() && mSpatialBridge.notNull()) { llerrs << "Static drawable has spatial bridge!" << llendl; } } #endif } class LLOctreeMarkNotCulled: public LLOctreeTraveler { public: LLCamera* mCamera; LLOctreeMarkNotCulled(LLCamera* camera_in) : mCamera(camera_in) { } virtual void traverse(const LLOctreeNode* node) { LLSpatialGroup* group = (LLSpatialGroup*) node->getListener(0); group->clearState(LLSpatialGroup::OCCLUDED | LLSpatialGroup::CULLED); LLOctreeTraveler::traverse(node); } void visit(const LLOctreeState* branch) { gPipeline.markNotCulled((LLSpatialGroup*) branch->getListener(0), *mCamera, TRUE); } }; void LLSpatialBridge::setVisible(LLCamera& camera_in, std::vector* results, BOOL for_select) { if (!gPipeline.hasRenderType(mDrawableType)) { return; } LLViewerObject *vobj = mDrawable->getVObj(); if (vobj && vobj->isAttachment() && !vobj->isHUDAttachment()) { LLVOAvatar* av; LLDrawable* parent = mDrawable->getParent(); if (parent) { av = (LLVOAvatar*) parent->getVObj(); if (!av->isVisible()) { return; } } } LLSpatialGroup* group = (LLSpatialGroup*) mOctree->getListener(0); group->rebound(); LLVector3 center = (mExtents[0] + mExtents[1]) * 0.5f; LLVector3 size = (mExtents[1]-mExtents[0]) * 0.5f; if (camera_in.AABBInFrustum(center, size)) { if (LLPipeline::calcPixelArea(center, size, camera_in) < FORCE_INVISIBLE_AREA) { return; } LLDrawable::setVisible(camera_in); if (for_select) { results->push_back(mDrawable); for (U32 i = 0; i < mDrawable->getChildCount(); i++) { results->push_back(mDrawable->getChild(i)); } } else { LLCamera trans_camera = transformCamera(camera_in); LLOctreeMarkNotCulled culler(&trans_camera); culler.traverse(mOctree); } } } void LLSpatialBridge::updateDistance(LLCamera& camera_in) { if (mDrawable == NULL) { markDead(); return; } LLCamera camera = transformCamera(camera_in); mDrawable->updateDistance(camera); for (U32 i = 0; i < mDrawable->getChildCount(); ++i) { LLDrawable* child = mDrawable->getChild(i); if (!child) { llwarns << "Corrupt drawable found while updating spatial bridge distance." << llendl; continue; } child->updateDistance(camera); } } void LLSpatialBridge::makeActive() { //it is an error to make a spatial bridge active (it's already active) llerrs << "makeActive called on spatial bridge" << llendl; } void LLSpatialBridge::makeStatic() { llerrs << "makeStatic called on spatial bridge" << llendl; } void LLSpatialBridge::move(LLDrawable *drawablep, LLSpatialGroup *curp, BOOL immediate) { LLSpatialPartition::move(drawablep, curp, immediate); gPipeline.markMoved(this, FALSE); } BOOL LLSpatialBridge::updateMove() { mOctree->balance(); gPipeline.getSpatialPartition(mPartitionType)->move(this, getSpatialGroup(), TRUE); return TRUE; } void LLSpatialBridge::shiftPos(const LLVector3& vec) { mExtents[0] += vec; mExtents[1] += vec; mPositionGroup += LLVector3d(vec); } void LLSpatialBridge::cleanupReferences() { LLDrawable::cleanupReferences(); if (mDrawable) { mDrawable->setSpatialGroup(NULL, -1); for (U32 i = 0; i < mDrawable->getChildCount(); i++) { LLDrawable* drawable = mDrawable->getChild(i); if (drawable && drawable->getVOVolume()) { drawable->setSpatialGroup(NULL, -1); } } LLDrawable* drawablep = mDrawable; mDrawable = NULL; drawablep->setSpatialBridge(NULL); } } const LLVector3 LLDrawable::getPositionAgent() const { if (getVOVolume()) { if (isActive()) { if (isRoot()) { return LLVector3(0,0,0) * getWorldMatrix(); } else { return mVObjp->getPosition() * getParent()->getWorldMatrix(); } } else { return mVObjp->getPositionAgent(); } } else { return getWorldPosition(); } } BOOL LLDrawable::isAnimating() const { if (!getVObj()) { return TRUE; } if (getScale() != mVObjp->getScale()) { return TRUE; } if (mVObjp->isFlexible()) { return TRUE; } if (mVObjp->getPCode() == LLViewerObject::LL_VO_PART_GROUP) { return TRUE; } if (mVObjp->getPCode() == LLViewerObject::LL_VO_CLOUDS) { return TRUE; } LLVOVolume* vol = getVOVolume(); if (vol && vol->mTextureAnimp) { return TRUE; } if (!isRoot() && !mVObjp->getAngularVelocity().isExactlyZero()) { return TRUE; } return FALSE; } void LLDrawable::updateFaceSize(S32 idx) { if (mVObjp.notNull()) { mVObjp->updateFaceSize(idx); } } LLBridgePartition::LLBridgePartition() : LLSpatialPartition(0, TRUE) { mRenderByGroup = FALSE; mDrawableType = LLPipeline::RENDER_TYPE_AVATAR; mPartitionType = LLPipeline::PARTITION_BRIDGE; mLODPeriod = 1; mSlopRatio = 0.f; } LLHUDBridge::LLHUDBridge(LLDrawable* drawablep) : LLVolumeBridge(drawablep) { mDrawableType = LLPipeline::RENDER_TYPE_HUD; mPartitionType = LLPipeline::PARTITION_HUD; mSlopRatio = 0.0f; } F32 LLHUDBridge::calcPixelArea(LLSpatialGroup* group, LLCamera& camera) { return 1024.f; } void LLHUDBridge::shiftPos(const LLVector3& vec) { //don't shift hud bridges on region crossing }