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|
/**
* @file llcontrolavatar.cpp
* @brief Implementation for special dummy avatar used to drive rigged meshes.
*
* $LicenseInfo:firstyear=2017&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2017, 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 "llcontrolavatar.h"
#include "llagent.h" // Get state values from here
#include "llviewerobjectlist.h"
#include "pipeline.h"
#include "llanimationstates.h"
#include "llviewercontrol.h"
#include "llmeshrepository.h"
#include "llviewerregion.h"
#include "llskinningutil.h"
const F32 LLControlAvatar::MAX_LEGAL_OFFSET = 3.0f;
const F32 LLControlAvatar::MAX_LEGAL_SIZE = 64.0f;
//static
boost::signals2::connection LLControlAvatar::sRegionChangedSlot;
LLControlAvatar::LLControlAvatar(const LLUUID& id, const LLPCode pcode, LLViewerRegion* regionp) :
LLVOAvatar(id, pcode, regionp),
mPlaying(false),
mGlobalScale(1.0f),
mMarkedForDeath(false),
mRootVolp(NULL),
mControlAVBridge(NULL),
mScaleConstraintFixup(1.0),
mRegionChanged(false)
{
mIsDummy = true;
mIsControlAvatar = true;
mEnableDefaultMotions = false;
}
// virtual
LLControlAvatar::~LLControlAvatar()
{
// Should already have been unlinked before destruction
llassert(!mRootVolp);
}
// virtual
void LLControlAvatar::initInstance()
{
// Potential optimizations here: avoid creating system
// avatar mesh content since it's not used. For now we just clean some
// things up after the fact in releaseMeshData().
LLVOAvatar::initInstance();
createDrawable(&gPipeline);
updateJointLODs();
updateGeometry(mDrawable);
hideSkirt();
mInitFlags |= 1<<4;
}
const LLVOAvatar *LLControlAvatar::getAttachedAvatar() const
{
if (mRootVolp && mRootVolp->isAttachment())
{
return mRootVolp->getAvatarAncestor();
}
return NULL;
}
LLVOAvatar *LLControlAvatar::getAttachedAvatar()
{
if (mRootVolp && mRootVolp->isAttachment())
{
return mRootVolp->getAvatarAncestor();
}
return NULL;
}
void LLControlAvatar::getNewConstraintFixups(LLVector3& new_pos_fixup, F32& new_scale_fixup) const
{
static LLCachedControl<F32> anim_max_legal_offset(gSavedSettings, "AnimatedObjectsMaxLegalOffset", MAX_LEGAL_OFFSET);
F32 max_legal_offset = llmax(anim_max_legal_offset(), 0.f);
static LLCachedControl<F32> anim_max_legal_size(gSavedSettings, "AnimatedObjectsMaxLegalSize", MAX_LEGAL_SIZE);
F32 max_legal_size = llmax(anim_max_legal_size(), 1.f);
new_pos_fixup = LLVector3();
new_scale_fixup = 1.0f;
LLVector3 vol_pos = mRootVolp->getRenderPosition();
// Fix up position if needed to prevent visual encroachment
if (box_valid_and_non_zero(getLastAnimExtents())) // wait for state to settle down
{
// The goal here is to ensure that the extent of the avatar's
// bounding box does not wander too far from the
// official position of the corresponding volume. We
// do this by tracking the distance and applying a
// correction to the control avatar position if
// needed.
const LLVector3 *extents = getLastAnimExtents();
LLVector3 unshift_extents[2];
unshift_extents[0] = extents[0] - mPositionConstraintFixup;
unshift_extents[1] = extents[1] - mPositionConstraintFixup;
LLVector3 box_dims = extents[1]-extents[0];
F32 box_size = llmax(box_dims[0],box_dims[1],box_dims[2]);
if (!mRootVolp->isAttachment())
{
LLVector3 pos_box_offset = point_to_box_offset(vol_pos, unshift_extents);
F32 offset_dist = pos_box_offset.length();
if (offset_dist > MAX_LEGAL_OFFSET && offset_dist > 0.f)
{
F32 target_dist = (offset_dist - MAX_LEGAL_OFFSET);
new_pos_fixup = (target_dist/offset_dist)*pos_box_offset;
}
if (new_pos_fixup != mPositionConstraintFixup)
{
LL_DEBUGS("ConstraintFix") << getFullname() << " pos fix, offset_dist " << offset_dist << " pos fixup "
<< new_pos_fixup << " was " << mPositionConstraintFixup << LL_ENDL;
LL_DEBUGS("ConstraintFix") << "vol_pos " << vol_pos << LL_ENDL;
LL_DEBUGS("ConstraintFix") << "extents " << extents[0] << " " << extents[1] << LL_ENDL;
LL_DEBUGS("ConstraintFix") << "unshift_extents " << unshift_extents[0] << " " << unshift_extents[1] << LL_ENDL;
}
}
if (box_size/mScaleConstraintFixup > MAX_LEGAL_SIZE)
{
new_scale_fixup = mScaleConstraintFixup* MAX_LEGAL_SIZE /box_size;
LL_DEBUGS("ConstraintFix") << getFullname() << " scale fix, box_size " << box_size << " fixup "
<< mScaleConstraintFixup << " max legal " << MAX_LEGAL_SIZE
<< " -> new scale " << new_scale_fixup << LL_ENDL;
}
}
}
void LLControlAvatar::matchVolumeTransform()
{
if (mRootVolp)
{
LLVector3 new_pos_fixup;
F32 new_scale_fixup;
if (mRegionChanged)
{
new_scale_fixup = mScaleConstraintFixup;
new_pos_fixup = mPositionConstraintFixup;
mRegionChanged = false;
}
else
{
getNewConstraintFixups(new_pos_fixup, new_scale_fixup);
}
mPositionConstraintFixup = new_pos_fixup;
mScaleConstraintFixup = new_scale_fixup;
if (mRootVolp->isAttachment())
{
LLVOAvatar *attached_av = getAttachedAvatar();
if (attached_av)
{
LLViewerJointAttachment *attach = attached_av->getTargetAttachmentPoint(mRootVolp);
if (getRegion() && !isDead())
{
setPositionAgent(mRootVolp->getRenderPosition());
}
attach->updateWorldPRSParent();
LLVector3 joint_pos = attach->getWorldPosition();
LLQuaternion joint_rot = attach->getWorldRotation();
LLVector3 obj_pos = mRootVolp->mDrawable->getPosition();
LLQuaternion obj_rot = mRootVolp->mDrawable->getRotation();
obj_pos.rotVec(joint_rot);
mRoot->setWorldPosition(obj_pos + joint_pos);
mRoot->setWorldRotation(obj_rot * joint_rot);
setRotation(mRoot->getRotation());
setGlobalScale(mScaleConstraintFixup);
}
else
{
LL_WARNS_ONCE() << "can't find attached av!" << LL_ENDL;
}
}
else
{
LLVector3 vol_pos = mRootVolp->getRenderPosition();
// FIXME: Currently if you're doing something like playing an
// animation that moves the pelvis (on an avatar or
// animated object), the name tag and debug text will be
// left behind. Ideally setPosition() would follow the
// skeleton around in a smarter way, so name tags,
// complexity info and such line up better. Should defer
// this until avatars also get fixed.
LLQuaternion obj_rot;
if (mRootVolp->mDrawable)
{
obj_rot = mRootVolp->mDrawable->getRotation();
}
else
{
obj_rot = mRootVolp->getRotation();
}
LLMatrix3 bind_mat;
LLQuaternion bind_rot;
#define MATCH_BIND_SHAPE
#ifdef MATCH_BIND_SHAPE
// MAINT-8671 - based on a patch from Beq Janus
const LLMeshSkinInfo* skin_info = mRootVolp->getSkinInfo();
if (skin_info)
{
LL_DEBUGS("BindShape") << getFullname() << " bind shape " << skin_info->mBindShapeMatrix << LL_ENDL;
bind_rot = LLSkinningUtil::getUnscaledQuaternion(LLMatrix4(skin_info->mBindShapeMatrix));
}
#endif
setRotation(bind_rot*obj_rot);
mRoot->setWorldRotation(bind_rot*obj_rot);
if (getRegion() && !isDead())
{
setPositionAgent(vol_pos);
}
mRoot->setPosition(vol_pos + mPositionConstraintFixup);
setGlobalScale(mScaleConstraintFixup);
}
}
}
void LLControlAvatar::setGlobalScale(F32 scale)
{
if (scale <= 0.0)
{
LL_WARNS() << "invalid global scale " << scale << LL_ENDL;
return;
}
if (scale != mGlobalScale)
{
F32 adjust_scale = scale/mGlobalScale;
LL_INFOS() << "scale " << scale << " adjustment " << adjust_scale << LL_ENDL;
// should we be scaling from the pelvis or the root?
recursiveScaleJoint(mPelvisp,adjust_scale);
mGlobalScale = scale;
}
}
void LLControlAvatar::recursiveScaleJoint(LLJoint* joint, F32 factor)
{
joint->setScale(factor * joint->getScale());
for (LLJoint::joints_t::iterator iter = joint->mChildren.begin();
iter != joint->mChildren.end(); ++iter)
{
LLJoint* child = *iter;
recursiveScaleJoint(child, factor);
}
}
// Based on LLViewerJointAttachment::setupDrawable(), without the attaching part.
void LLControlAvatar::updateVolumeGeom()
{
if (!mRootVolp->mDrawable)
return;
if (mRootVolp->mDrawable->isActive())
{
mRootVolp->mDrawable->makeStatic(false);
}
mRootVolp->mDrawable->makeActive();
gPipeline.markMoved(mRootVolp->mDrawable);
gPipeline.markTextured(mRootVolp->mDrawable); // face may need to change draw pool to/from POOL_HUD
LLViewerObject::const_child_list_t& child_list = mRootVolp->getChildren();
for (LLViewerObject::child_list_t::const_iterator iter = child_list.begin();
iter != child_list.end(); ++iter)
{
LLViewerObject* childp = *iter;
if (childp && childp->mDrawable.notNull())
{
gPipeline.markTextured(childp->mDrawable); // face may need to change draw pool to/from POOL_HUD
gPipeline.markMoved(childp->mDrawable);
}
}
gPipeline.markRebuild(mRootVolp->mDrawable, LLDrawable::REBUILD_ALL);
mRootVolp->markForUpdate();
// Note that attachment overrides aren't needed here, have already
// been applied at the time the mControlAvatar was created, in
// llvovolume.cpp.
matchVolumeTransform();
// Initial exploration of allowing scaling skeleton to match root
// prim bounding box. If enabled, would probably be controlled by
// an additional checkbox and default to off. Not enabled for
// initial release.
// What should the scale be? What we really want is the ratio
// between the scale at which the object was originally designed
// and rigged, and the scale to which it has been subsequently
// modified - for example, if the object has been scaled down by a
// factor of 2 then we should use 0.5 as the global scale. But we
// don't have the original scale stored anywhere, just the current
// scale. Possibilities - 1) remember the original scale
// somewhere, 2) add another field to let the user specify the
// global scale, 3) approximate the original scale by looking at
// the proportions of the skeleton after joint positions have
// been applied
//LLVector3 obj_scale = obj->getScale();
//F32 obj_scale_z = llmax(obj_scale[2],0.1f);
//setGlobalScale(obj_scale_z/2.0f); // roughly fit avatar height range (2m) into object height
}
LLControlAvatar *LLControlAvatar::createControlAvatar(LLVOVolume *obj)
{
LLControlAvatar *cav = (LLControlAvatar*)gObjectList.createObjectViewer(LL_PCODE_LEGACY_AVATAR, gAgent.getRegion(), CO_FLAG_CONTROL_AVATAR);
if (cav)
{
cav->mRootVolp = obj;
// Sync up position/rotation with object
cav->matchVolumeTransform();
}
return cav;
}
void LLControlAvatar::markForDeath()
{
mMarkedForDeath = true;
// object unlinked cav and might be dead already
// might need to clean mControlAVBridge here as well
mRootVolp = NULL;
}
void LLControlAvatar::idleUpdate(LLAgent &agent, const F64 &time)
{
if (mMarkedForDeath)
{
markDead();
mMarkedForDeath = false;
}
else
{
LLVOAvatar::idleUpdate(agent,time);
}
}
void LLControlAvatar::markDead()
{
mRootVolp = NULL;
super::markDead();
mControlAVBridge = NULL;
}
bool LLControlAvatar::computeNeedsUpdate()
{
computeUpdatePeriod();
// Animesh attachments are a special case. Should have the same update cadence as their attached parent avatar.
LLVOAvatar *attached_av = getAttachedAvatar();
if (attached_av)
{
// Have to run computeNeedsUpdate() for attached av in
// case it hasn't run updateCharacter() already this
// frame. Note this means that the attached av will
// run computeNeedsUpdate() multiple times per frame
// if it has animesh attachments. Results will be
// consistent except for the corner case of exceeding
// MAX_IMPOSTOR_INTERVAL in one call but not another,
// which should be rare.
attached_av->computeNeedsUpdate();
mNeedsImpostorUpdate = attached_av->mNeedsImpostorUpdate;
if (mNeedsImpostorUpdate)
{
mLastImpostorUpdateReason = 12;
}
return mNeedsImpostorUpdate;
}
return LLVOAvatar::computeNeedsUpdate();
}
bool LLControlAvatar::updateCharacter(LLAgent &agent)
{
return LLVOAvatar::updateCharacter(agent);
}
//virtual
void LLControlAvatar::updateDebugText()
{
static LLCachedControl<bool> debug_animated_objects(gSavedSettings, "DebugAnimatedObjects");
if (debug_animated_objects)
{
S32 total_linkset_count = 0;
if (mRootVolp)
{
total_linkset_count = 1 + static_cast<S32>(mRootVolp->getChildren().size());
}
std::vector<LLVOVolume*> volumes;
getAnimatedVolumes(volumes);
S32 animated_volume_count = static_cast<S32>(volumes.size());
std::string active_string;
std::string type_string;
std::string lod_string;
std::string animated_object_flag_string;
S32 total_tris = 0;
S32 total_verts = 0;
F32 est_tris = 0.f;
F32 est_streaming_tris = 0.f;
F32 streaming_cost = 0.f;
std::string cam_dist_string = "";
S32 cam_dist_count = 0;
F32 lod_radius = mRootVolp ? mRootVolp->mLODRadius : 0.f;
for (std::vector<LLVOVolume*>::iterator it = volumes.begin();
it != volumes.end(); ++it)
{
LLVOVolume *volp = *it;
S32 verts = 0;
total_tris += volp->getTriangleCount(&verts);
total_verts += verts;
est_tris += volp->getEstTrianglesMax();
est_streaming_tris += volp->getEstTrianglesStreamingCost();
streaming_cost += volp->getStreamingCost();
lod_string += llformat("%d",volp->getLOD());
if (volp && volp->mDrawable)
{
bool is_animated_flag = volp->getExtendedMeshFlags() & LLExtendedMeshParams::ANIMATED_MESH_ENABLED_FLAG;
if (is_animated_flag)
{
animated_object_flag_string += "1";
}
else
{
animated_object_flag_string += "0";
}
if (volp->mDrawable->isActive())
{
active_string += "A";
}
else
{
active_string += "S";
}
if (volp->isRiggedMesh())
{
// Rigged/animatable mesh
type_string += "R";
lod_radius = volp->mLODRadius;
}
else if (volp->isMesh())
{
// Static mesh
type_string += "M";
}
else
{
// Any other prim
type_string += "P";
}
if (cam_dist_count < 4)
{
cam_dist_string += LLStringOps::getReadableNumber(volp->mLODDistance) + "/" +
LLStringOps::getReadableNumber(volp->mLODAdjustedDistance) + " ";
cam_dist_count++;
}
}
else
{
active_string += "-";
type_string += "-";
}
}
addDebugText(llformat("CAV obj %d anim %d active %s impost %d upprd %d strcst %f",
total_linkset_count, animated_volume_count,
active_string.c_str(), (S32) isImpostor(), getUpdatePeriod(), streaming_cost));
addDebugText(llformat("types %s lods %s", type_string.c_str(), lod_string.c_str()));
addDebugText(llformat("flags %s", animated_object_flag_string.c_str()));
addDebugText(llformat("tris %d (est %.1f, streaming %.1f), verts %d", total_tris, est_tris, est_streaming_tris, total_verts));
addDebugText(llformat("pxarea %s rank %d", LLStringOps::getReadableNumber(getPixelArea()).c_str(), getVisibilityRank()));
addDebugText(llformat("lod_radius %s dists %s", LLStringOps::getReadableNumber(lod_radius).c_str(),cam_dist_string.c_str()));
if (mPositionConstraintFixup.length() > 0.0f || mScaleConstraintFixup != 1.0f)
{
addDebugText(llformat("pos fix (%.1f %.1f %.1f) scale %f",
mPositionConstraintFixup[0],
mPositionConstraintFixup[1],
mPositionConstraintFixup[2],
mScaleConstraintFixup));
}
#if 0
std::string region_name = "no region";
if (mRootVolp->getRegion())
{
region_name = mRootVolp->getRegion()->getName();
}
std::string skel_region_name = "skel no region";
if (getRegion())
{
skel_region_name = getRegion()->getName();
}
addDebugText(llformat("region %x %s skel %x %s",
mRootVolp->getRegion(), region_name.c_str(),
getRegion(), skel_region_name.c_str()));
#endif
}
LLVOAvatar::updateDebugText();
}
void LLControlAvatar::getAnimatedVolumes(std::vector<LLVOVolume*>& volumes)
{
if (!mRootVolp)
{
return;
}
volumes.push_back(mRootVolp);
LLViewerObject::const_child_list_t& child_list = mRootVolp->getChildren();
for (LLViewerObject::const_child_list_t::const_iterator iter = child_list.begin();
iter != child_list.end(); ++iter)
{
LLViewerObject* childp = *iter;
LLVOVolume *child_volp = dynamic_cast<LLVOVolume*>(childp);
if (child_volp && child_volp->isAnimatedObject())
{
volumes.push_back(child_volp);
}
}
}
// This is called after an associated object receives an animation
// message. Combine the signaled animations for all associated objects
// and process any resulting state changes.
void LLControlAvatar::updateAnimations()
{
if (!mRootVolp)
{
LL_WARNS_ONCE("AnimatedObjectsNotify") << "No root vol" << LL_ENDL;
return;
}
std::vector<LLVOVolume*> volumes;
getAnimatedVolumes(volumes);
// Rebuild mSignaledAnimations from the associated volumes.
std::map<LLUUID, S32> anims;
for (std::vector<LLVOVolume*>::iterator vol_it = volumes.begin(); vol_it != volumes.end(); ++vol_it)
{
LLVOVolume *volp = *vol_it;
//LL_INFOS("AnimatedObjects") << "updating anim for vol " << volp->getID() << " root " << mRootVolp->getID() << LL_ENDL;
signaled_animation_map_t& signaled_animations = LLObjectSignaledAnimationMap::instance().getMap()[volp->getID()];
for (std::map<LLUUID,S32>::iterator anim_it = signaled_animations.begin();
anim_it != signaled_animations.end();
++anim_it)
{
std::map<LLUUID,S32>::iterator found_anim_it = anims.find(anim_it->first);
if (found_anim_it != anims.end())
{
// Animation already present, use the larger sequence id
anims[anim_it->first] = llmax(found_anim_it->second, anim_it->second);
}
else
{
// Animation not already present, use this sequence id.
anims[anim_it->first] = anim_it->second;
}
LL_DEBUGS("AnimatedObjectsNotify") << "found anim for vol " << volp->getID() << " anim " << anim_it->first << " root " << mRootVolp->getID() << LL_ENDL;
}
}
if (!mPlaying)
{
mPlaying = true;
//if (!mRootVolp->isAnySelected())
{
updateVolumeGeom();
mRootVolp->recursiveMarkForUpdate();
}
}
mSignaledAnimations = anims;
processAnimationStateChanges();
}
// virtual
LLViewerObject* LLControlAvatar::lineSegmentIntersectRiggedAttachments(const LLVector4a& start, const LLVector4a& end,
S32 face,
bool pick_transparent,
bool pick_rigged,
bool pick_unselectable,
S32* face_hit,
LLVector4a* intersection,
LLVector2* tex_coord,
LLVector4a* normal,
LLVector4a* tangent)
{
if (!mRootVolp)
{
return NULL;
}
LLViewerObject* hit = NULL;
if (lineSegmentBoundingBox(start, end))
{
LLVector4a local_end = end;
LLVector4a local_intersection;
if (mRootVolp->lineSegmentIntersect(start, local_end, face, pick_transparent, pick_rigged, pick_unselectable, face_hit, &local_intersection, tex_coord, normal, tangent))
{
local_end = local_intersection;
if (intersection)
{
*intersection = local_intersection;
}
hit = mRootVolp;
}
else
{
std::vector<LLVOVolume*> volumes;
getAnimatedVolumes(volumes);
for (std::vector<LLVOVolume*>::iterator vol_it = volumes.begin(); vol_it != volumes.end(); ++vol_it)
{
LLVOVolume *volp = *vol_it;
if (mRootVolp != volp && volp->lineSegmentIntersect(start, local_end, face, pick_transparent, pick_rigged, pick_unselectable, face_hit, &local_intersection, tex_coord, normal, tangent))
{
local_end = local_intersection;
if (intersection)
{
*intersection = local_intersection;
}
hit = volp;
break;
}
}
}
}
return hit;
}
// virtual
std::string LLControlAvatar::getFullname() const
{
if (mRootVolp)
{
return "AO_" + mRootVolp->getID().getString();
}
else
{
return "AO_no_root_vol";
}
}
// virtual
bool LLControlAvatar::shouldRenderRigged() const
{
const LLVOAvatar *attached_av = getAttachedAvatar();
if (attached_av)
{
return attached_av->shouldRenderRigged();
}
return true;
}
// virtual
bool LLControlAvatar::isImpostor()
{
// Attached animated objects should match state of their attached av.
LLVOAvatar *attached_av = getAttachedAvatar();
if (attached_av)
{
return attached_av->isImpostor();
}
return LLVOAvatar::isImpostor();
}
//static
void LLControlAvatar::onRegionChanged()
{
std::vector<LLCharacter*>::iterator it = LLCharacter::sInstances.begin();
for ( ; it != LLCharacter::sInstances.end(); ++it)
{
LLControlAvatar* cav = dynamic_cast<LLControlAvatar*>(*it);
if (!cav) continue;
cav->mRegionChanged = true;
}
}
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