/** * @file llenvmanager.cpp * @brief Implementation of classes managing WindLight and water settings. * * $LicenseInfo:firstyear=2009&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2011, 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 "llenvironment.h" #include #include "llagent.h" #include "llviewercontrol.h" // for gSavedSettings #include "llviewerregion.h" #include "llwlhandlers.h" #include "lltrans.h" #include "lltrace.h" #include "llfasttimer.h" #include "llviewercamera.h" #include "pipeline.h" #include "llsky.h" #include "llviewershadermgr.h" #include "llparcel.h" #include "llviewerparcelmgr.h" #include "llsdserialize.h" #include "lldiriterator.h" #include "llsettingsvo.h" #include "llnotificationsutil.h" #include "llregioninfomodel.h" #include #include "llatmosphere.h" #include "llagent.h" #include "roles_constants.h" #include "llestateinfomodel.h" #include "lldispatcher.h" #include "llviewergenericmessage.h" #include "llexperiencelog.h" //========================================================================= namespace { const std::string KEY_ENVIRONMENT("environment"); const std::string KEY_DAYASSET("day_asset"); const std::string KEY_DAYCYCLE("day_cycle"); const std::string KEY_DAYHASH("day_hash"); const std::string KEY_DAYLENGTH("day_length"); const std::string KEY_DAYNAME("day_name"); const std::string KEY_DAYNAMES("day_names"); const std::string KEY_DAYOFFSET("day_offset"); const std::string KEY_ENVVERSION("env_version"); const std::string KEY_ISDEFAULT("is_default"); const std::string KEY_PARCELID("parcel_id"); const std::string KEY_REGIONID("region_id"); const std::string KEY_TRACKALTS("track_altitudes"); const std::string MESSAGE_PUSHENVIRONMENT("PushExpEnvironment"); const std::string ACTION_CLEARENVIRONMENT("ClearEnvironment"); const std::string ACTION_PUSHFULLENVIRONMENT("PushFullEnvironment"); const std::string ACTION_PUSHPARTIALENVIRONMENT("PushPartialEnvironment"); const std::string KEY_ASSETID("asset_id"); const std::string KEY_TRANSITIONTIME("transition_time"); const std::string KEY_ACTION("action"); const std::string KEY_ACTIONDATA("action_data"); const std::string KEY_EXPERIENCEID("public_id"); const std::string KEY_OBJECTNAME("ObjectName"); // some of these do not conform to the '_' format. const std::string KEY_PARCELNAME("ParcelName"); // But changing these would also alter the Experience Log requirements. const std::string KEY_COUNT("Count"); const std::string LISTENER_NAME("LLEnvironmentSingleton"); const std::string PUMP_EXPERIENCE("experience_permission"); //--------------------------------------------------------------------- LLTrace::BlockTimerStatHandle FTM_ENVIRONMENT_UPDATE("Update Environment Tick"); LLTrace::BlockTimerStatHandle FTM_SHADER_PARAM_UPDATE("Update Shader Parameters"); LLSettingsBase::Seconds DEFAULT_UPDATE_THRESHOLD(10.0); const LLSettingsBase::Seconds MINIMUM_SPANLENGTH(0.01f); //--------------------------------------------------------------------- inline LLSettingsBase::TrackPosition get_wrapping_distance(LLSettingsBase::TrackPosition begin, LLSettingsBase::TrackPosition end) { if (begin < end) { return end - begin; } else if (begin > end) { return LLSettingsBase::TrackPosition(1.0) - (begin - end); } return 1.0f; } LLSettingsDay::CycleTrack_t::iterator get_wrapping_atafter(LLSettingsDay::CycleTrack_t &collection, const LLSettingsBase::TrackPosition& key) { if (collection.empty()) return collection.end(); LLSettingsDay::CycleTrack_t::iterator it = collection.upper_bound(key); if (it == collection.end()) { // wrap around it = collection.begin(); } return it; } LLSettingsDay::CycleTrack_t::iterator get_wrapping_atbefore(LLSettingsDay::CycleTrack_t &collection, const LLSettingsBase::TrackPosition& key) { if (collection.empty()) return collection.end(); LLSettingsDay::CycleTrack_t::iterator it = collection.lower_bound(key); if (it == collection.end()) { // all keyframes are lower, take the last one. --it; // we know the range is not empty } else if ((*it).first > key) { // the keyframe we are interested in is smaller than the found. if (it == collection.begin()) it = collection.end(); --it; } return it; } LLSettingsDay::TrackBound_t get_bounding_entries(LLSettingsDay::CycleTrack_t &track, const LLSettingsBase::TrackPosition& keyframe) { return LLSettingsDay::TrackBound_t(get_wrapping_atbefore(track, keyframe), get_wrapping_atafter(track, keyframe)); } // Find normalized track position of given time along full length of cycle inline LLSettingsBase::TrackPosition convert_time_to_position(const LLSettingsBase::Seconds& time, const LLSettingsBase::Seconds& len) { LLSettingsBase::TrackPosition position = LLSettingsBase::TrackPosition(fmod((F64)time, (F64)len) / (F64)len); return llclamp(position, 0.0f, 1.0f); } //--------------------------------------------------------------------- class LLTrackBlenderLoopingTime : public LLSettingsBlenderTimeDelta { public: LLTrackBlenderLoopingTime(const LLSettingsBase::ptr_t &target, const LLSettingsDay::ptr_t &day, S32 trackno, LLSettingsBase::Seconds cyclelength, LLSettingsBase::Seconds cycleoffset, LLSettingsBase::Seconds updateThreshold) : LLSettingsBlenderTimeDelta(target, LLSettingsBase::ptr_t(), LLSettingsBase::ptr_t(), LLSettingsBase::Seconds(1.0)), mDay(day), mTrackNo(0), mCycleLength(cyclelength), mCycleOffset(cycleoffset) { setTimeDeltaThreshold(updateThreshold); // must happen prior to getBoundingEntries call... mTrackNo = selectTrackNumber(trackno); LLSettingsDay::TrackBound_t initial = getBoundingEntries(getAdjustedNow()); mInitial = (*initial.first).second; mFinal = (*initial.second).second; mBlendSpan = getSpanTime(initial); setOnFinished([this](const LLSettingsBlender::ptr_t &){ onFinishedSpan(); }); } void switchTrack(S32 trackno, const LLSettingsBase::TrackPosition&) override { S32 use_trackno = selectTrackNumber(trackno); if (use_trackno == mTrackNo) { // results in no change return; } LLSettingsBase::ptr_t pstartsetting = mTarget->buildDerivedClone(); mTrackNo = use_trackno; LLSettingsBase::Seconds now = getAdjustedNow() + LLEnvironment::TRANSITION_ALTITUDE; LLSettingsDay::TrackBound_t bounds = getBoundingEntries(now); LLSettingsBase::ptr_t pendsetting = (*bounds.first).second->buildDerivedClone(); LLSettingsBase::TrackPosition targetpos = convert_time_to_position(now, mCycleLength) - (*bounds.first).first; LLSettingsBase::TrackPosition targetspan = get_wrapping_distance((*bounds.first).first, (*bounds.second).first); LLSettingsBase::BlendFactor blendf = calculateBlend(targetpos, targetspan); pendsetting->blend((*bounds.second).second, blendf); setIgnoreTimeDeltaThreshold(true); // for the next span ignore the time delta threshold. reset(pstartsetting, pendsetting, LLEnvironment::TRANSITION_ALTITUDE); } protected: S32 selectTrackNumber(S32 trackno) { if (trackno == 0) { // We are dealing with the water track. There is only ever one. return trackno; } for (S32 test = trackno; test != 0; --test) { // Find the track below the requested one with data. LLSettingsDay::CycleTrack_t &track = mDay->getCycleTrack(test); if (!track.empty()) return test; } return 1; } LLSettingsDay::TrackBound_t getBoundingEntries(LLSettingsBase::Seconds time) { LLSettingsDay::CycleTrack_t &wtrack = mDay->getCycleTrack(mTrackNo); LLSettingsBase::TrackPosition position = convert_time_to_position(time, mCycleLength); LLSettingsDay::TrackBound_t bounds = get_bounding_entries(wtrack, position); return bounds; } LLSettingsBase::Seconds getAdjustedNow() const { LLSettingsBase::Seconds now(LLDate::now().secondsSinceEpoch()); return (now + mCycleOffset); } LLSettingsBase::Seconds getSpanTime(const LLSettingsDay::TrackBound_t &bounds) const { LLSettingsBase::Seconds span = mCycleLength * get_wrapping_distance((*bounds.first).first, (*bounds.second).first); if (span < MINIMUM_SPANLENGTH) // for very short spans set a minimum length. span = MINIMUM_SPANLENGTH; return span; } private: LLSettingsDay::ptr_t mDay; S32 mTrackNo; LLSettingsBase::Seconds mCycleLength; LLSettingsBase::Seconds mCycleOffset; void onFinishedSpan() { LLSettingsDay::TrackBound_t next = getBoundingEntries(getAdjustedNow()); LLSettingsBase::Seconds nextspan = getSpanTime(next); reset((*next.first).second, (*next.second).second, nextspan); } }; class LLEnvironmentPushDispatchHandler : public LLDispatchHandler { public: virtual bool operator()(const LLDispatcher *, const std::string& key, const LLUUID& invoice, const sparam_t& strings) override { LLSD message; sparam_t::const_iterator it = strings.begin(); if (it != strings.end()) { const std::string& llsdRaw = *it++; std::istringstream llsdData(llsdRaw); if (!LLSDSerialize::deserialize(message, llsdData, llsdRaw.length())) { LL_WARNS() << "LLExperienceLogDispatchHandler: Attempted to read parameter data into LLSD but failed:" << llsdRaw << LL_ENDL; } } message[KEY_EXPERIENCEID] = invoice; // Object Name if (it != strings.end()) { message[KEY_OBJECTNAME] = *it++; } // parcel Name if (it != strings.end()) { message[KEY_PARCELNAME] = *it++; } message[KEY_COUNT] = 1; LLEnvironment::instance().handleEnvironmentPush(message); return true; } }; LLEnvironmentPushDispatchHandler environment_push_dispatch_handler; template class LLSettingsInjected : public SETTINGT { public: typedef std::shared_ptr > ptr_t; LLSettingsInjected(typename SETTINGT::ptr_t source) : SETTINGT(), mSource(source) {} virtual ~LLSettingsInjected() {}; // typename SETTINGT::ptr_t buildClone() const override; typename SETTINGT::ptr_t getSource() const { return this->mSource; } void setSource(const typename SETTINGT::ptr_t &source) { this->mSource = source; this->setDirtyFlag(true); } void injectSetting(const std::string keyname, LLSD value, LLUUID experience_id, F32Seconds transition) { if (transition > 0.1) { typename Injection::ptr_t injection = std::make_shared(transition, keyname, value, true, experience_id); mInjections.push_back(injection); std::stable_sort(mInjections.begin(), mInjections.end(), [](const typename Injection::ptr_t &a, const typename Injection::ptr_t &b) { return a->mTimeRemaining < b->mTimeRemaining; }); } else { mOverrideValues[keyname] = value; mOverrideExps[keyname] = experience_id; this->setDirtyFlag(true); } } void removeInjection(const std::string keyname, LLUUID experience) { auto it = mInjections.begin(); while (it != mInjections.end()) { if (((*it)->mKeyName == keyname) && (experience.isNull() || (experience == (*it)->mExperience))) { mInjections.erase(it++); } else { ++it; } } for (auto itexp = mOverrideExps.begin(); itexp != mOverrideExps.end();) { if (experience.isNull() || ((*itexp).second == experience)) { mOverrideValues.erase((*itexp).first); mOverrideExps.erase(itexp++); } else ++itexp; } } void injectExperienceValues(LLSD values, LLUUID experience_id, typename LLSettingsBase::Seconds transition) { for (auto it = values.beginMap(); it != values.endMap(); ++it) { injectSetting((*it).first, (*it).second, experience_id, transition); } this->setDirtyFlag(true); } protected: struct Injection { Injection(typename LLSettingsBase::Seconds transition, const std::string &keyname, LLSD value, bool blendin, LLUUID experince, S32 index = -1) : mTransition(transition), mTimeRemaining(transition), mKeyName(keyname), mValue(value), mExperience(experince), mIndex(index), mBlendIn(blendin), mFirstTime(true) {} typename LLSettingsBase::Seconds mTransition; typename LLSettingsBase::Seconds mTimeRemaining; std::string mKeyName; LLSD mValue; LLUUID mExperience; S32 mIndex; bool mBlendIn; bool mFirstTime; typedef std::shared_ptr ptr_t; }; virtual void updateSettings() override { static LLFrameTimer timer; typename LLSettingsBase::Seconds delta(timer.getElapsedTimeAndResetF32()); resetSpecial(); if (mSource && mSource->isDirty()) { mSource->updateSettings(); } this->mSettings = mSource->getSettings(); for (auto ito = mOverrideValues.beginMap(); ito != mOverrideValues.endMap(); ++ito) { this->mSettings[(*ito).first] = (*ito).second; } const LLSettingsBase::stringset_t &slerps = this->getSlerpKeys(); const LLSettingsBase::stringset_t &skips = this->getSkipInterpolateKeys(); const LLSettingsBase::stringset_t &specials = this->getSpecialKeys(); typename injections_t::iterator it; for (it = mInjections.begin(); it != mInjections.end(); ++it) { std::string key_name = (*it)->mKeyName; LLSD value = this->mSettings[key_name]; LLSD target = (*it)->mValue; if ((*it)->mFirstTime) (*it)->mFirstTime = false; else (*it)->mTimeRemaining -= delta; typename LLSettingsBase::BlendFactor mix = 1.0f - ((*it)->mTimeRemaining.value() / (*it)->mTransition.value()); if (mix >= 1.0) { if ((*it)->mBlendIn) { LL_WARNS("LAPRAS") << "Done blending '" << key_name << "' after " << (*it)->mTransition.value() - (*it)->mTimeRemaining.value() << " value now=" << target << LL_ENDL; mOverrideValues[key_name] = target; mOverrideExps[key_name] = (*it)->mExperience; this->mSettings[key_name] = target; } else { this->mSettings.erase(key_name); } } else if (specials.find(key_name) != specials.end()) { updateSpecial(*it, mix); } else if (skips.find(key_name) == skips.end()) { this->mSettings[key_name] = this->interpolateSDValue(key_name, value, target, this->getParameterMap(), mix, slerps); // LL_WARNS("LAPRAS") << "...blending '" << key_name << "' by " << mix << "% now=" << mSettings[key_name] << LL_ENDL; } } it = mInjections.begin(); it = std::find_if(mInjections.begin(), mInjections.end(), [](const typename Injection::ptr_t &a) { return a->mTimeRemaining > 0.0f; }); if (it != mInjections.begin()) { mInjections.erase(mInjections.begin(), mInjections.end()); } SETTINGT::updateSettings(); if (!mInjections.empty()) this->setDirtyFlag(true); } LLSettingsBase::stringset_t getSpecialKeys() const; void resetSpecial(); void updateSpecial(const typename Injection::ptr_t &injection, typename LLSettingsBase::BlendFactor mix); private: typedef std::map key_to_expid_t; typedef std::deque injections_t; typename SETTINGT::ptr_t mSource; injections_t mInjections; LLSD mOverrideValues; key_to_expid_t mOverrideExps; }; template<> LLSettingsBase::stringset_t LLSettingsInjected::getSpecialKeys() const { static LLSettingsBase::stringset_t specialSet; if (specialSet.empty()) { specialSet.insert(SETTING_BLOOM_TEXTUREID); specialSet.insert(SETTING_RAINBOW_TEXTUREID); specialSet.insert(SETTING_HALO_TEXTUREID); specialSet.insert(SETTING_CLOUD_TEXTUREID); specialSet.insert(SETTING_MOON_TEXTUREID); specialSet.insert(SETTING_SUN_TEXTUREID); } return specialSet; } template<> LLSettingsBase::stringset_t LLSettingsInjected::getSpecialKeys() const { static stringset_t specialSet; if (specialSet.empty()) { specialSet.insert(SETTING_TRANSPARENT_TEXTURE); specialSet.insert(SETTING_NORMAL_MAP); } return specialSet; } template<> void LLSettingsInjected::resetSpecial() { mNextSunTextureId.setNull(); mNextMoonTextureId.setNull(); mNextCloudTextureId.setNull(); mNextBloomTextureId.setNull(); mNextRainbowTextureId.setNull(); mNextHaloTextureId.setNull(); setBlendFactor(0.0f); } template<> void LLSettingsInjected::resetSpecial() { mNextNormalMapID.setNull(); mNextTransparentTextureID.setNull(); setBlendFactor(0.0f); } template<> void LLSettingsInjected::updateSpecial(const typename LLSettingsInjected::Injection::ptr_t &injection, typename LLSettingsBase::BlendFactor mix) { if (injection->mKeyName == SETTING_SUN_TEXTUREID) { mNextSunTextureId = injection->mValue.asUUID(); } else if (injection->mKeyName == SETTING_MOON_TEXTUREID) { mNextMoonTextureId = injection->mValue.asUUID(); } else if (injection->mKeyName == SETTING_CLOUD_TEXTUREID) { mNextCloudTextureId = injection->mValue.asUUID(); } else if (injection->mKeyName == SETTING_BLOOM_TEXTUREID) { mNextBloomTextureId = injection->mValue.asUUID(); } else if (injection->mKeyName == SETTING_RAINBOW_TEXTUREID) { mNextRainbowTextureId = injection->mValue.asUUID(); } else if (injection->mKeyName == SETTING_HALO_TEXTUREID) { mNextHaloTextureId = injection->mValue.asUUID(); } // Unfortunately I don't have a per texture blend factor. We'll just pick the one that is furthest along. if (getBlendFactor() < mix) { setBlendFactor(mix); } } template<> void LLSettingsInjected::updateSpecial(const typename LLSettingsInjected::Injection::ptr_t &injection, typename LLSettingsBase::BlendFactor mix) { if (injection->mKeyName == SETTING_NORMAL_MAP) { mNextNormalMapID = injection->mValue.asUUID(); } else if (injection->mKeyName == SETTING_TRANSPARENT_TEXTURE) { mNextTransparentTextureID = injection->mValue.asUUID(); } // Unfortunately I don't have a per texture blend factor. We'll just pick the one that is furthest along. if (getBlendFactor() < mix) { setBlendFactor(mix); } } typedef LLSettingsInjected LLSettingsInjectedSky; typedef LLSettingsInjected LLSettingsInjectedWater; #if 0 //===================================================================== class DayInjection : public LLEnvironment::DayInstance { public: typedef std::shared_ptr ptr_t; DayInjection(LLEnvironment::EnvSelection_t env) : LLEnvironment::DayInstance(env) { } virtual ~DayInjection() { }; protected: private: }; #endif } //========================================================================= const F32Seconds LLEnvironment::TRANSITION_INSTANT(0.0f); const F32Seconds LLEnvironment::TRANSITION_FAST(1.0f); const F32Seconds LLEnvironment::TRANSITION_DEFAULT(5.0f); const F32Seconds LLEnvironment::TRANSITION_SLOW(10.0f); const F32Seconds LLEnvironment::TRANSITION_ALTITUDE(5.0f); const LLUUID LLEnvironment::KNOWN_SKY_SUNRISE("01e41537-ff51-2f1f-8ef7-17e4df760bfb"); const LLUUID LLEnvironment::KNOWN_SKY_MIDDAY("6c83e853-e7f8-cad7-8ee6-5f31c453721c"); const LLUUID LLEnvironment::KNOWN_SKY_SUNSET("084e26cd-a900-28e8-08d0-64a9de5c15e2"); const LLUUID LLEnvironment::KNOWN_SKY_MIDNIGHT("8a01b97a-cb20-c1ea-ac63-f7ea84ad0090"); const S32 LLEnvironment::NO_TRACK(-1); const S32 LLEnvironment::NO_VERSION(-3); // For viewer sided change, like ENV_LOCAL. -3 since -1 and -2 are taken by parcel initial server/viewer version const S32 LLEnvironment::VERSION_CLEANUP(-4); // for cleanups const F32 LLEnvironment::SUN_DELTA_YAW(F_PI); // 180deg //------------------------------------------------------------------------- LLEnvironment::LLEnvironment(): mCloudScrollDelta(), mCloudScrollPaused(false), mSelectedSky(), mSelectedWater(), mSelectedDay(), mSelectedEnvironment(LLEnvironment::ENV_LOCAL), mCurrentTrack(1) { } void LLEnvironment::initSingleton() { LLSettingsSky::ptr_t p_default_sky = LLSettingsVOSky::buildDefaultSky(); LLSettingsWater::ptr_t p_default_water = LLSettingsVOWater::buildDefaultWater(); mCurrentEnvironment = std::make_shared(ENV_DEFAULT); mCurrentEnvironment->setSky(p_default_sky); mCurrentEnvironment->setWater(p_default_water); mEnvironments[ENV_DEFAULT] = mCurrentEnvironment; requestRegion(); gAgent.addParcelChangedCallback([this]() { onParcelChange(); }); //TODO: This frequently results in one more request than we need. It isn't breaking, but should be nicer. // We need to know new env version to fix this, without it we can only do full re-request // Happens: on updates, on opening LLFloaterRegionInfo, on region crossing if info floater is open LLRegionInfoModel::instance().setUpdateCallback([this]() { requestRegion(); }); gAgent.addRegionChangedCallback([this]() { onRegionChange(); }); gAgent.whenPositionChanged([this](const LLVector3 &localpos, const LLVector3d &) { onAgentPositionHasChanged(localpos); }); if (!gGenericDispatcher.isHandlerPresent(MESSAGE_PUSHENVIRONMENT)) { gGenericDispatcher.addHandler(MESSAGE_PUSHENVIRONMENT, &environment_push_dispatch_handler); } LLEventPumps::instance().obtain(PUMP_EXPERIENCE).listen(LISTENER_NAME, [this](LLSD message) { listenExperiencePump(message); return false; }); } void LLEnvironment::cleanupSingleton() { LLEventPumps::instance().obtain(PUMP_EXPERIENCE).stopListening(LISTENER_NAME); } LLEnvironment::~LLEnvironment() { } bool LLEnvironment::canEdit() const { return true; } LLSettingsSky::ptr_t LLEnvironment::getCurrentSky() const { LLSettingsSky::ptr_t psky = mCurrentEnvironment->getSky(); if (!psky && mCurrentEnvironment->getEnvironmentSelection() >= ENV_EDIT) { for (int idx = 0; idx < ENV_END; ++idx) { if (mEnvironments[idx]->getSky()) { psky = mEnvironments[idx]->getSky(); break; } } } return psky; } LLSettingsWater::ptr_t LLEnvironment::getCurrentWater() const { LLSettingsWater::ptr_t pwater = mCurrentEnvironment->getWater(); if (!pwater && mCurrentEnvironment->getEnvironmentSelection() >= ENV_EDIT) { for (int idx = 0; idx < ENV_END; ++idx) { if (mEnvironments[idx]->getWater()) { pwater = mEnvironments[idx]->getWater(); break; } } } return pwater; } void LLEnvironment::getAtmosphericModelSettings(AtmosphericModelSettings& settingsOut, const LLSettingsSky::ptr_t &psky) { settingsOut.m_skyBottomRadius = psky->getSkyBottomRadius(); settingsOut.m_skyTopRadius = psky->getSkyTopRadius(); settingsOut.m_sunArcRadians = psky->getSunArcRadians(); settingsOut.m_mieAnisotropy = psky->getMieAnisotropy(); LLSD rayleigh = psky->getRayleighConfigs(); settingsOut.m_rayleighProfile.clear(); for (LLSD::array_iterator itf = rayleigh.beginArray(); itf != rayleigh.endArray(); ++itf) { atmosphere::DensityProfileLayer layer; LLSD& layerConfig = (*itf); layer.constant_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM].asReal(); layer.exp_scale = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR].asReal(); layer.exp_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM].asReal(); layer.linear_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM].asReal(); layer.width = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH].asReal(); settingsOut.m_rayleighProfile.push_back(layer); } LLSD mie = psky->getMieConfigs(); settingsOut.m_mieProfile.clear(); for (LLSD::array_iterator itf = mie.beginArray(); itf != mie.endArray(); ++itf) { atmosphere::DensityProfileLayer layer; LLSD& layerConfig = (*itf); layer.constant_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM].asReal(); layer.exp_scale = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR].asReal(); layer.exp_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM].asReal(); layer.linear_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM].asReal(); layer.width = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH].asReal(); settingsOut.m_mieProfile.push_back(layer); } settingsOut.m_mieAnisotropy = psky->getMieAnisotropy(); LLSD absorption = psky->getAbsorptionConfigs(); settingsOut.m_absorptionProfile.clear(); for (LLSD::array_iterator itf = absorption.beginArray(); itf != absorption.endArray(); ++itf) { atmosphere::DensityProfileLayer layer; LLSD& layerConfig = (*itf); layer.constant_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM].asReal(); layer.exp_scale = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR].asReal(); layer.exp_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM].asReal(); layer.linear_term = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM].asReal(); layer.width = layerConfig[LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH].asReal(); settingsOut.m_absorptionProfile.push_back(layer); } } bool LLEnvironment::canAgentUpdateParcelEnvironment() const { LLParcel *parcel(LLViewerParcelMgr::instance().getAgentOrSelectedParcel()); return canAgentUpdateParcelEnvironment(parcel); } bool LLEnvironment::canAgentUpdateParcelEnvironment(LLParcel *parcel) const { if (!parcel) return false; if (!LLEnvironment::instance().isExtendedEnvironmentEnabled()) return false; if (gAgent.isGodlike()) return true; if (!parcel->getRegionAllowEnvironmentOverride()) return false; return LLViewerParcelMgr::isParcelModifiableByAgent(parcel, GP_LAND_ALLOW_ENVIRONMENT); } bool LLEnvironment::canAgentUpdateRegionEnvironment() const { if (gAgent.isGodlike()) return true; return gAgent.getRegion()->canManageEstate(); } bool LLEnvironment::isExtendedEnvironmentEnabled() const { return !gAgent.getRegionCapability("ExtEnvironment").empty(); } bool LLEnvironment::isInventoryEnabled() const { return (!gAgent.getRegionCapability("UpdateSettingsAgentInventory").empty() && !gAgent.getRegionCapability("UpdateSettingsTaskInventory").empty()); } void LLEnvironment::onRegionChange() { clearExperienceEnvironment(LLUUID::null, TRANSITION_DEFAULT); LLViewerRegion* cur_region = gAgent.getRegion(); if (!cur_region) { return; } if (!cur_region->capabilitiesReceived()) { cur_region->setCapabilitiesReceivedCallback([](LLUUID region_id) { LLEnvironment::instance().requestRegion(); }); return; } requestRegion(); } void LLEnvironment::onParcelChange() { S32 parcel_id(INVALID_PARCEL_ID); LLParcel* parcel = LLViewerParcelMgr::instance().getAgentParcel(); if (parcel) { parcel_id = parcel->getLocalID(); } requestParcel(parcel_id); } //------------------------------------------------------------------------- F32 LLEnvironment::getCamHeight() const { return (mCurrentEnvironment->getSky()->getDomeOffset() * mCurrentEnvironment->getSky()->getDomeRadius()); } F32 LLEnvironment::getWaterHeight() const { return gAgent.getRegion()->getWaterHeight(); } bool LLEnvironment::getIsSunUp() const { if (!mCurrentEnvironment || !mCurrentEnvironment->getSky()) return false; return mCurrentEnvironment->getSky()->getIsSunUp(); } bool LLEnvironment::getIsMoonUp() const { if (!mCurrentEnvironment || !mCurrentEnvironment->getSky()) return false; return mCurrentEnvironment->getSky()->getIsMoonUp(); } //------------------------------------------------------------------------- void LLEnvironment::setSelectedEnvironment(LLEnvironment::EnvSelection_t env, LLSettingsBase::Seconds transition, bool forced) { mSelectedEnvironment = env; updateEnvironment(transition, forced); } bool LLEnvironment::hasEnvironment(LLEnvironment::EnvSelection_t env) { if ((env < ENV_EDIT) || (env >= ENV_DEFAULT) || (!mEnvironments[env])) { return false; } return true; } LLEnvironment::DayInstance::ptr_t LLEnvironment::getEnvironmentInstance(LLEnvironment::EnvSelection_t env, bool create /*= false*/) { DayInstance::ptr_t environment = mEnvironments[env]; if (create) { if (environment) environment = environment->clone(); else { environment = std::make_shared(env); } mEnvironments[env] = environment; } return environment; } void LLEnvironment::setEnvironment(LLEnvironment::EnvSelection_t env, const LLSettingsDay::ptr_t &pday, LLSettingsDay::Seconds daylength, LLSettingsDay::Seconds dayoffset, S32 env_version) { if ((env < ENV_EDIT) || (env >= ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to change invalid environment selection." << LL_ENDL; return; } DayInstance::ptr_t environment = getEnvironmentInstance(env, true); environment->clear(); environment->setDay(pday, daylength, dayoffset); environment->setSkyTrack(mCurrentTrack); environment->animate(); if (!mSignalEnvChanged.empty()) mSignalEnvChanged(env, env_version); } void LLEnvironment::setEnvironment(LLEnvironment::EnvSelection_t env, LLEnvironment::fixedEnvironment_t fixed, S32 env_version) { if ((env < ENV_EDIT) || (env >= ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to change invalid environment selection." << LL_ENDL; return; } DayInstance::ptr_t environment = getEnvironmentInstance(env, true); // LLSettingsSky::ptr_t prev_sky = mEnvironments[ENV_DEFAULT]->getSky(); // LLSettingsWater::ptr_t prev_water = mEnvironments[ENV_DEFAULT]->getWater(); // if (mCurrentEnvironment && (ENV_EDIT == env)) // { // prev_sky = mCurrentEnvironment->getSky() ? mCurrentEnvironment->getSky() : prev_sky; // prev_water = mCurrentEnvironment->getWater() ? mCurrentEnvironment->getWater() : prev_water; // } // environment->clear(); // environment->setSky((fixed.first) ? fixed.first : prev_sky); // environment->setWater((fixed.second) ? fixed.second : prev_water); if (fixed.first) environment->setSky(fixed.first); else if (!environment->getSky()) environment->setSky(mCurrentEnvironment->getSky()); if (fixed.second) environment->setWater(fixed.second); else if (!environment->getWater()) environment->setWater(mCurrentEnvironment->getWater()); if (!mSignalEnvChanged.empty()) mSignalEnvChanged(env, env_version); /*TODO: readjust environment*/ } void LLEnvironment::setEnvironment(LLEnvironment::EnvSelection_t env, const LLSettingsBase::ptr_t &settings, S32 env_version) { DayInstance::ptr_t environment = getEnvironmentInstance(env); if (env == ENV_DEFAULT) { LL_WARNS("ENVIRONMENT") << "Attempt to set default environment. Not allowed." << LL_ENDL; return; } if (!settings) { clearEnvironment(env); return; } if (settings->getSettingsType() == "daycycle") { LLSettingsDay::Seconds daylength(LLSettingsDay::DEFAULT_DAYLENGTH); LLSettingsDay::Seconds dayoffset(LLSettingsDay::DEFAULT_DAYOFFSET); if (environment) { daylength = environment->getDayLength(); dayoffset = environment->getDayOffset(); } setEnvironment(env, std::static_pointer_cast(settings), daylength, dayoffset); } else if (settings->getSettingsType() == "sky") { fixedEnvironment_t fixedenv(std::static_pointer_cast(settings), LLSettingsWater::ptr_t()); // if (environment) // { // fixedenv.second = environment->getWater(); // } setEnvironment(env, fixedenv); } else if (settings->getSettingsType() == "water") { fixedEnvironment_t fixedenv(LLSettingsSky::ptr_t(), std::static_pointer_cast(settings)); // if (environment) // { // fixedenv.first = environment->getSky(); // } setEnvironment(env, fixedenv); } } void LLEnvironment::setEnvironment(EnvSelection_t env, const LLUUID &assetId, S32 env_version) { setEnvironment(env, assetId, LLSettingsDay::DEFAULT_DAYLENGTH, LLSettingsDay::DEFAULT_DAYOFFSET); } void LLEnvironment::setEnvironment(EnvSelection_t env, const LLUUID &assetId, LLSettingsDay::Seconds daylength, LLSettingsDay::Seconds dayoffset, S32 env_version) { LLSettingsVOBase::getSettingsAsset(assetId, [this, env, daylength, dayoffset, env_version](LLUUID asset_id, LLSettingsBase::ptr_t settings, S32 status, LLExtStat) { onSetEnvAssetLoaded(env, asset_id, settings, daylength, dayoffset, TRANSITION_DEFAULT, status, env_version); }); } void LLEnvironment::onSetEnvAssetLoaded(EnvSelection_t env, LLUUID asset_id, LLSettingsBase::ptr_t settings, LLSettingsDay::Seconds daylength, LLSettingsDay::Seconds dayoffset, LLSettingsBase::Seconds transition, S32 status, S32 env_version) { if (!settings || status) { LLSD args; args["DESC"] = asset_id.asString(); LLNotificationsUtil::add("FailedToFindSettings", args); return; } setEnvironment(env, settings); updateEnvironment(transition); } void LLEnvironment::clearEnvironment(LLEnvironment::EnvSelection_t env) { if ((env < ENV_EDIT) || (env >= ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to change invalid environment selection." << LL_ENDL; return; } mEnvironments[env].reset(); if (!mSignalEnvChanged.empty()) mSignalEnvChanged(env, VERSION_CLEANUP); /*TODO: readjust environment*/ } LLSettingsDay::ptr_t LLEnvironment::getEnvironmentDay(LLEnvironment::EnvSelection_t env) { if ((env < ENV_EDIT) || (env > ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to retrieve invalid environment selection." << LL_ENDL; return LLSettingsDay::ptr_t(); } DayInstance::ptr_t environment = getEnvironmentInstance(env); if (environment) return environment->getDayCycle(); return LLSettingsDay::ptr_t(); } LLSettingsDay::Seconds LLEnvironment::getEnvironmentDayLength(EnvSelection_t env) { if ((env < ENV_EDIT) || (env > ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to retrieve invalid environment selection." << LL_ENDL; return LLSettingsDay::Seconds(0); } DayInstance::ptr_t environment = getEnvironmentInstance(env); if (environment) return environment->getDayLength(); return LLSettingsDay::Seconds(0); } LLSettingsDay::Seconds LLEnvironment::getEnvironmentDayOffset(EnvSelection_t env) { if ((env < ENV_EDIT) || (env > ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to retrieve invalid environment selection." << LL_ENDL; return LLSettingsDay::Seconds(0); } DayInstance::ptr_t environment = getEnvironmentInstance(env); if (environment) return environment->getDayOffset(); return LLSettingsDay::Seconds(0); } LLEnvironment::fixedEnvironment_t LLEnvironment::getEnvironmentFixed(LLEnvironment::EnvSelection_t env, bool resolve) { if ((env == ENV_CURRENT) || resolve) { fixedEnvironment_t fixed; for (S32 idx = ((resolve) ? env : mSelectedEnvironment); idx < ENV_END; ++idx) { if (fixed.first && fixed.second) break; if (idx == ENV_EDIT) continue; // skip the edit environment. DayInstance::ptr_t environment = getEnvironmentInstance(static_cast(idx)); if (environment) { if (!fixed.first) fixed.first = environment->getSky(); if (!fixed.second) fixed.second = environment->getWater(); } } if (!fixed.first || !fixed.second) LL_WARNS("ENVIRONMENT") << "Can not construct complete fixed environment. Missing Sky and/or Water." << LL_ENDL; return fixed; } if ((env < ENV_EDIT) || (env > ENV_DEFAULT)) { LL_WARNS("ENVIRONMENT") << "Attempt to retrieve invalid environment selection." << LL_ENDL; return fixedEnvironment_t(); } DayInstance::ptr_t environment = getEnvironmentInstance(env); if (environment) return fixedEnvironment_t(environment->getSky(), environment->getWater()); return fixedEnvironment_t(); } LLEnvironment::DayInstance::ptr_t LLEnvironment::getSelectedEnvironmentInstance() { for (S32 idx = mSelectedEnvironment; idx < ENV_DEFAULT; ++idx) { if (mEnvironments[idx]) return mEnvironments[idx]; } return mEnvironments[ENV_DEFAULT]; } LLEnvironment::DayInstance::ptr_t LLEnvironment::getSharedEnvironmentInstance() { for (S32 idx = ENV_PARCEL; idx < ENV_DEFAULT; ++idx) { if (mEnvironments[idx]) return mEnvironments[idx]; } return mEnvironments[ENV_DEFAULT]; } void LLEnvironment::updateEnvironment(LLSettingsBase::Seconds transition, bool forced) { DayInstance::ptr_t pinstance = getSelectedEnvironmentInstance(); if ((mCurrentEnvironment != pinstance) || forced) { DayInstance::ptr_t trans = std::make_shared( mCurrentEnvironment->getSky(), mCurrentEnvironment->getWater(), pinstance, transition); trans->animate(); mCurrentEnvironment = trans; } } LLVector4 LLEnvironment::toCFR(const LLVector3 vec) const { LLVector4 vec_cfr(vec.mV[1], vec.mV[0], vec.mV[2], 0.0f); return vec_cfr; } LLVector4 LLEnvironment::toLightNorm(const LLVector3 vec) const { LLVector4 vec_ogl(vec.mV[1], vec.mV[2], vec.mV[0], 0.0f); return vec_ogl; } LLVector3 LLEnvironment::getLightDirection() const { LLSettingsSky::ptr_t psky = mCurrentEnvironment->getSky(); if (!psky) { return LLVector3(0, 0, 1); } return psky->getLightDirection(); } LLVector3 LLEnvironment::getSunDirection() const { LLSettingsSky::ptr_t psky = mCurrentEnvironment->getSky(); if (!psky) { return LLVector3(0, 0, 1); } return psky->getSunDirection(); } LLVector3 LLEnvironment::getMoonDirection() const { LLSettingsSky::ptr_t psky = mCurrentEnvironment->getSky(); if (!psky) { return LLVector3(0, 0, -1); } return psky->getMoonDirection(); } LLVector4 LLEnvironment::getLightDirectionCFR() const { LLVector3 light_direction = getLightDirection(); LLVector4 light_direction_cfr = toCFR(light_direction); return light_direction_cfr; } LLVector4 LLEnvironment::getSunDirectionCFR() const { LLVector3 light_direction = getSunDirection(); LLVector4 light_direction_cfr = toCFR(light_direction); return light_direction_cfr; } LLVector4 LLEnvironment::getMoonDirectionCFR() const { LLVector3 light_direction = getMoonDirection(); LLVector4 light_direction_cfr = toCFR(light_direction); return light_direction_cfr; } LLVector4 LLEnvironment::getClampedLightNorm() const { LLVector3 light_direction = getLightDirection(); if (light_direction.mV[2] < -0.1f) { light_direction.mV[2] = -0.1f; } return toLightNorm(light_direction); } LLVector4 LLEnvironment::getClampedSunNorm() const { LLVector3 light_direction = getSunDirection(); if (light_direction.mV[2] < -0.1f) { light_direction.mV[2] = -0.1f; } return toLightNorm(light_direction); } LLVector4 LLEnvironment::getClampedMoonNorm() const { LLVector3 light_direction = getMoonDirection(); if (light_direction.mV[2] < -0.1f) { light_direction.mV[2] = -0.1f; } return toLightNorm(light_direction); } LLVector4 LLEnvironment::getRotatedLightNorm() const { LLVector3 light_direction = getLightDirection(); light_direction *= LLQuaternion(-mLastCamYaw, LLVector3(0.f, 1.f, 0.f)); return toLightNorm(light_direction); } //------------------------------------------------------------------------- void LLEnvironment::update(const LLViewerCamera * cam) { LL_RECORD_BLOCK_TIME(FTM_ENVIRONMENT_UPDATE); //F32Seconds now(LLDate::now().secondsSinceEpoch()); static LLFrameTimer timer; F32Seconds delta(timer.getElapsedTimeAndResetF32()); mCurrentEnvironment->applyTimeDelta(delta); // update clouds, sun, and general updateCloudScroll(); // cache this for use in rotating the rotated light vec for shader param updates later... mLastCamYaw = cam->getYaw() + SUN_DELTA_YAW; stop_glerror(); // *TODO: potential optimization - this block may only need to be // executed some of the time. For example for water shaders only. { LLViewerShaderMgr::shader_iter shaders_iter, end_shaders; end_shaders = LLViewerShaderMgr::instance()->endShaders(); for (shaders_iter = LLViewerShaderMgr::instance()->beginShaders(); shaders_iter != end_shaders; ++shaders_iter) { if ((shaders_iter->mProgramObject != 0) && (gPipeline.canUseWindLightShaders() || shaders_iter->mShaderGroup == LLGLSLShader::SG_WATER)) { shaders_iter->mUniformsDirty = TRUE; } } } } void LLEnvironment::updateCloudScroll() { // This is a function of the environment rather than the sky, since it should // persist through sky transitions. static LLTimer s_cloud_timer; F64 delta_t = s_cloud_timer.getElapsedTimeAndResetF64(); if (mCurrentEnvironment->getSky() && !mCloudScrollPaused) { LLVector2 cloud_delta = static_cast(delta_t)* (mCurrentEnvironment->getSky()->getCloudScrollRate()) / 100.0; mCloudScrollDelta += cloud_delta; } } // static void LLEnvironment::updateGLVariablesForSettings(LLGLSLShader *shader, const LLSettingsBase::ptr_t &psetting) { LL_RECORD_BLOCK_TIME(FTM_SHADER_PARAM_UPDATE); //_WARNS("RIDER") << "----------------------------------------------------------------" << LL_ENDL; LLSettingsBase::parammapping_t params = psetting->getParameterMap(); for (auto &it: params) { LLSD value; // legacy first since it contains ambient color and we prioritize value from legacy, see getAmbientColor() if (psetting->mSettings.has(LLSettingsSky::SETTING_LEGACY_HAZE) && psetting->mSettings[LLSettingsSky::SETTING_LEGACY_HAZE].has(it.first)) { value = psetting->mSettings[LLSettingsSky::SETTING_LEGACY_HAZE][it.first]; } else if (psetting->mSettings.has(it.first)) { value = psetting->mSettings[it.first]; } else { // We need to reset shaders, use defaults value = it.second.getDefaultValue(); } LLSD::Type setting_type = value.type(); stop_glerror(); switch (setting_type) { case LLSD::TypeInteger: shader->uniform1i(it.second.getShaderKey(), value.asInteger()); //_WARNS("RIDER") << "pushing '" << (*it).first << "' as " << value << LL_ENDL; break; case LLSD::TypeReal: shader->uniform1f(it.second.getShaderKey(), value.asReal()); //_WARNS("RIDER") << "pushing '" << (*it).first << "' as " << value << LL_ENDL; break; case LLSD::TypeBoolean: shader->uniform1i(it.second.getShaderKey(), value.asBoolean() ? 1 : 0); //_WARNS("RIDER") << "pushing '" << (*it).first << "' as " << value << LL_ENDL; break; case LLSD::TypeArray: { LLVector4 vect4(value); //_WARNS("RIDER") << "pushing '" << (*it).first << "' as " << vect4 << LL_ENDL; shader->uniform4fv(it.second.getShaderKey(), 1, vect4.mV); break; } // case LLSD::TypeMap: // case LLSD::TypeString: // case LLSD::TypeUUID: // case LLSD::TypeURI: // case LLSD::TypeBinary: // case LLSD::TypeDate: default: break; } stop_glerror(); } //_WARNS("RIDER") << "----------------------------------------------------------------" << LL_ENDL; psetting->applySpecial(shader); if (LLPipeline::sRenderDeferred && !LLPipeline::sReflectionRender && !LLPipeline::sUnderWaterRender) { shader->uniform1f(LLShaderMgr::GLOBAL_GAMMA, 2.2); } else { shader->uniform1f(LLShaderMgr::GLOBAL_GAMMA, 1.0); } } void LLEnvironment::updateShaderUniforms(LLGLSLShader *shader) { if (gPipeline.canUseWindLightShaders()) { updateGLVariablesForSettings(shader, mCurrentEnvironment->getWater()); updateGLVariablesForSettings(shader, mCurrentEnvironment->getSky()); } } void LLEnvironment::recordEnvironment(S32 parcel_id, LLEnvironment::EnvironmentInfo::ptr_t envinfo, LLSettingsBase::Seconds transition) { if (envinfo->mParcelId == INVALID_PARCEL_ID) { // the returned info applies to an entire region. if (!envinfo->mDayCycle) { clearEnvironment(ENV_PARCEL); setEnvironment(ENV_REGION, LLSettingsDay::GetDefaultAssetId(), LLSettingsDay::DEFAULT_DAYLENGTH, LLSettingsDay::DEFAULT_DAYOFFSET, envinfo->mEnvVersion); updateEnvironment(); } else if (envinfo->mDayCycle->isTrackEmpty(LLSettingsDay::TRACK_WATER) || envinfo->mDayCycle->isTrackEmpty(LLSettingsDay::TRACK_GROUND_LEVEL)) { LL_WARNS("LAPRAS") << "Invalid day cycle for region" << LL_ENDL; clearEnvironment(ENV_PARCEL); setEnvironment(ENV_REGION, LLSettingsDay::GetDefaultAssetId(), LLSettingsDay::DEFAULT_DAYLENGTH, LLSettingsDay::DEFAULT_DAYOFFSET, envinfo->mEnvVersion); updateEnvironment(); } else { LL_INFOS("LAPRAS") << "Setting Region environment" << LL_ENDL; setEnvironment(ENV_REGION, envinfo->mDayCycle, envinfo->mDayLength, envinfo->mDayOffset, envinfo->mEnvVersion); mTrackAltitudes = envinfo->mAltitudes; } LL_WARNS("LAPRAS") << "Altitudes set to {" << mTrackAltitudes[0] << ", "<< mTrackAltitudes[1] << ", " << mTrackAltitudes[2] << ", " << mTrackAltitudes[3] << LL_ENDL; } else { LLParcel *parcel = LLViewerParcelMgr::instance().getAgentParcel(); LL_WARNS("LAPRAS") << "Have parcel environment #" << envinfo->mParcelId << LL_ENDL; if (parcel && (parcel->getLocalID() != parcel_id)) { LL_WARNS("ENVIRONMENT") << "Requested parcel #" << parcel_id << " agent is on " << parcel->getLocalID() << LL_ENDL; return; } if (!envinfo->mDayCycle) { LL_WARNS("LAPRAS") << "Clearing environment on parcel #" << parcel_id << LL_ENDL; clearEnvironment(ENV_PARCEL); } else if (envinfo->mDayCycle->isTrackEmpty(LLSettingsDay::TRACK_WATER) || envinfo->mDayCycle->isTrackEmpty(LLSettingsDay::TRACK_GROUND_LEVEL)) { LL_WARNS("LAPRAS") << "Invalid day cycle for parcel #" << parcel_id << LL_ENDL; clearEnvironment(ENV_PARCEL); } else { setEnvironment(ENV_PARCEL, envinfo->mDayCycle, envinfo->mDayLength, envinfo->mDayOffset, envinfo->mEnvVersion); } } updateEnvironment(transition); } //========================================================================= void LLEnvironment::requestRegion(environment_apply_fn cb) { requestParcel(INVALID_PARCEL_ID, cb); } void LLEnvironment::updateRegion(const LLSettingsDay::ptr_t &pday, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { updateParcel(INVALID_PARCEL_ID, pday, day_length, day_offset, altitudes, cb); } void LLEnvironment::updateRegion(const LLUUID &asset_id, std::string display_name, S32 track_num, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { if (!isExtendedEnvironmentEnabled()) { LL_WARNS("ENVIRONMENT") << "attempt to apply asset id to region not supporting it." << LL_ENDL; LLNotificationsUtil::add("NoEnvironmentSettings"); return; } updateParcel(INVALID_PARCEL_ID, asset_id, display_name, track_num, day_length, day_offset, altitudes, cb); } void LLEnvironment::updateRegion(const LLSettingsSky::ptr_t &psky, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { updateParcel(INVALID_PARCEL_ID, psky, day_length, day_offset, altitudes, cb); } void LLEnvironment::updateRegion(const LLSettingsWater::ptr_t &pwater, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { updateParcel(INVALID_PARCEL_ID, pwater, day_length, day_offset, altitudes, cb); } void LLEnvironment::resetRegion(environment_apply_fn cb) { resetParcel(INVALID_PARCEL_ID, cb); } void LLEnvironment::requestParcel(S32 parcel_id, environment_apply_fn cb) { if (!isExtendedEnvironmentEnabled()) { /*TODO: When EEP is live on the entire grid, this can go away. */ if (parcel_id == INVALID_PARCEL_ID) { if (!cb) { LLSettingsBase::Seconds transition = LLViewerParcelMgr::getInstance()->getTeleportInProgress() ? TRANSITION_FAST : TRANSITION_DEFAULT; cb = [this, transition](S32 pid, EnvironmentInfo::ptr_t envinfo) { recordEnvironment(pid, envinfo, transition); }; } LLEnvironmentRequest::initiate(cb); } else if (cb) cb(parcel_id, EnvironmentInfo::ptr_t()); return; } if (!cb) { LLSettingsBase::Seconds transition = LLViewerParcelMgr::getInstance()->getTeleportInProgress() ? TRANSITION_FAST : TRANSITION_DEFAULT; cb = [this, transition](S32 pid, EnvironmentInfo::ptr_t envinfo) { recordEnvironment(pid, envinfo, transition); }; } std::string coroname = LLCoros::instance().launch("LLEnvironment::coroRequestEnvironment", [this, parcel_id, cb]() { coroRequestEnvironment(parcel_id, cb); }); } void LLEnvironment::updateParcel(S32 parcel_id, const LLUUID &asset_id, std::string display_name, S32 track_num, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { UpdateInfo::ptr_t updates(std::make_shared(asset_id, display_name, day_length, day_offset, altitudes)); std::string coroname = LLCoros::instance().launch("LLEnvironment::coroUpdateEnvironment", [this, parcel_id, track_num, updates, cb]() { coroUpdateEnvironment(parcel_id, track_num, updates, cb); }); } void LLEnvironment::onUpdateParcelAssetLoaded(LLUUID asset_id, LLSettingsBase::ptr_t settings, S32 status, S32 parcel_id, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes) { if (status) { LL_WARNS("ENVIRONMENT") << "Unable to get settings asset with id " << asset_id << "!" << LL_ENDL; LLNotificationsUtil::add("FailedToLoadSettingsApply"); return; } LLSettingsDay::ptr_t pday; if (settings->getSettingsType() == "daycycle") pday = std::static_pointer_cast(settings); else { pday = createDayCycleFromEnvironment( (parcel_id == INVALID_PARCEL_ID) ? ENV_REGION : ENV_PARCEL, settings); } if (!pday) { LL_WARNS("ENVIRONMENT") << "Unable to construct day around " << asset_id << "!" << LL_ENDL; LLNotificationsUtil::add("FailedToBuildSettingsDay"); return; } updateParcel(parcel_id, pday, day_length, day_offset, altitudes); } void LLEnvironment::updateParcel(S32 parcel_id, const LLSettingsSky::ptr_t &psky, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { LLSettingsDay::ptr_t pday = createDayCycleFromEnvironment((parcel_id == INVALID_PARCEL_ID) ? ENV_REGION : ENV_PARCEL, psky); updateParcel(parcel_id, pday, day_length, day_offset, altitudes, cb); } void LLEnvironment::updateParcel(S32 parcel_id, const LLSettingsWater::ptr_t &pwater, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { LLSettingsDay::ptr_t pday = createDayCycleFromEnvironment((parcel_id == INVALID_PARCEL_ID) ? ENV_REGION : ENV_PARCEL, pwater); updateParcel(parcel_id, pday, day_length, day_offset, altitudes, cb); } void LLEnvironment::updateParcel(S32 parcel_id, const LLSettingsDay::ptr_t &pday, S32 track_num, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { UpdateInfo::ptr_t updates(std::make_shared(pday, day_length, day_offset, altitudes)); std::string coroname = LLCoros::instance().launch("LLEnvironment::coroUpdateEnvironment", [this, parcel_id, track_num, updates, cb]() { coroUpdateEnvironment(parcel_id, track_num, updates, cb); }); } void LLEnvironment::updateParcel(S32 parcel_id, const LLSettingsDay::ptr_t &pday, S32 day_length, S32 day_offset, LLEnvironment::altitudes_vect_t altitudes, environment_apply_fn cb) { updateParcel(parcel_id, pday, NO_TRACK, day_length, day_offset, altitudes, cb); } void LLEnvironment::resetParcel(S32 parcel_id, environment_apply_fn cb) { std::string coroname = LLCoros::instance().launch("LLEnvironment::coroResetEnvironment", [this, parcel_id, cb]() { coroResetEnvironment(parcel_id, NO_TRACK, cb); }); } void LLEnvironment::coroRequestEnvironment(S32 parcel_id, LLEnvironment::environment_apply_fn apply) { LLCore::HttpRequest::policy_t httpPolicy(LLCore::HttpRequest::DEFAULT_POLICY_ID); LLCoreHttpUtil::HttpCoroutineAdapter::ptr_t httpAdapter(new LLCoreHttpUtil::HttpCoroutineAdapter("ResetEnvironment", httpPolicy)); LLCore::HttpRequest::ptr_t httpRequest(new LLCore::HttpRequest); std::string url = gAgent.getRegionCapability("ExtEnvironment"); if (url.empty()) return; LL_WARNS("LAPRAS") << "Requesting for parcel_id=" << parcel_id << LL_ENDL; if (parcel_id != INVALID_PARCEL_ID) { std::stringstream query; query << "?parcelid=" << parcel_id; url += query.str(); } LL_WARNS("LAPRAS") << "url=" << url << LL_ENDL; LLSD result = httpAdapter->getAndSuspend(httpRequest, url); // results that come back may contain the new settings // LLSD notify; LLSD httpResults = result["http_result"]; LLCore::HttpStatus status = LLCoreHttpUtil::HttpCoroutineAdapter::getStatusFromLLSD(httpResults); if (!status) { LL_WARNS("WindlightCaps") << "Couldn't retrieve environment settings for " << ((parcel_id == INVALID_PARCEL_ID) ? ("region!") : ("parcel!")) << LL_ENDL; // std::stringstream msg; // msg << status.toString() << " (Code " << status.toTerseString() << ")"; // notify = LLSD::emptyMap(); // notify["FAIL_REASON"] = msg.str(); } else { LLSD environment = result[KEY_ENVIRONMENT]; if (environment.isDefined() && apply) { EnvironmentInfo::ptr_t envinfo = LLEnvironment::EnvironmentInfo::extract(environment); apply(parcel_id, envinfo); } } // if (!notify.isUndefined()) // { // LLNotificationsUtil::add("WLRegionApplyFail", notify); // //LLEnvManagerNew::instance().onRegionSettingsApplyResponse(false); // } } void LLEnvironment::coroUpdateEnvironment(S32 parcel_id, S32 track_no, UpdateInfo::ptr_t updates, environment_apply_fn apply) { LLCore::HttpRequest::policy_t httpPolicy(LLCore::HttpRequest::DEFAULT_POLICY_ID); LLCoreHttpUtil::HttpCoroutineAdapter::ptr_t httpAdapter(new LLCoreHttpUtil::HttpCoroutineAdapter("ResetEnvironment", httpPolicy)); LLCore::HttpRequest::ptr_t httpRequest(new LLCore::HttpRequest); std::string url = gAgent.getRegionCapability("ExtEnvironment"); if (url.empty()) return; LLSD body(LLSD::emptyMap()); body[KEY_ENVIRONMENT] = LLSD::emptyMap(); if (track_no == NO_TRACK) { // day length and offset are only applicable if we are addressing the entire day cycle. if (updates->mDayLength > 0) body[KEY_ENVIRONMENT][KEY_DAYLENGTH] = updates->mDayLength; if (updates->mDayOffset > 0) body[KEY_ENVIRONMENT][KEY_DAYOFFSET] = updates->mDayOffset; if ((parcel_id == INVALID_PARCEL_ID) && (updates->mAltitudes.size() == 3)) { // only test for altitude changes if we are changing the region. body[KEY_ENVIRONMENT][KEY_TRACKALTS] = LLSD::emptyArray(); for (S32 i = 0; i < 3; ++i) { body[KEY_ENVIRONMENT][KEY_TRACKALTS][i] = updates->mAltitudes[i]; } } } if (updates->mDayp) body[KEY_ENVIRONMENT][KEY_DAYCYCLE] = updates->mDayp->getSettings(); else if (!updates->mSettingsAsset.isNull()) { body[KEY_ENVIRONMENT][KEY_DAYASSET] = updates->mSettingsAsset; if (!updates->mDayName.empty()) body[KEY_ENVIRONMENT][KEY_DAYNAME] = updates->mDayName; } LL_WARNS("LAPRAS") << "Body = " << body << LL_ENDL; if ((parcel_id != INVALID_PARCEL_ID) || (track_no != NO_TRACK)) { std::stringstream query; query << "?"; if (parcel_id != INVALID_PARCEL_ID) { query << "parcelid=" << parcel_id; if (track_no != NO_TRACK) query << "&"; } if (track_no != NO_TRACK) { query << "trackno=" << track_no; } url += query.str(); } LLSD result = httpAdapter->putAndSuspend(httpRequest, url, body); // results that come back may contain the new settings LLSD notify; LLSD httpResults = result["http_result"]; LLCore::HttpStatus status = LLCoreHttpUtil::HttpCoroutineAdapter::getStatusFromLLSD(httpResults); LL_WARNS("LAPRAS") << "success=" << result["success"] << LL_ENDL; if ((!status) || !result["success"].asBoolean()) { LL_WARNS("WindlightCaps") << "Couldn't update Windlight settings for " << ((parcel_id == INVALID_PARCEL_ID) ? ("region!") : ("parcel!")) << LL_ENDL; notify = LLSD::emptyMap(); notify["FAIL_REASON"] = result["message"].asString(); } else { LLSD environment = result[KEY_ENVIRONMENT]; if (environment.isDefined() && apply) { EnvironmentInfo::ptr_t envinfo = LLEnvironment::EnvironmentInfo::extract(environment); apply(parcel_id, envinfo); } } if (!notify.isUndefined()) { LLNotificationsUtil::add("WLRegionApplyFail", notify); //LLEnvManagerNew::instance().onRegionSettingsApplyResponse(false); } } void LLEnvironment::coroResetEnvironment(S32 parcel_id, S32 track_no, environment_apply_fn apply) { LLCore::HttpRequest::policy_t httpPolicy(LLCore::HttpRequest::DEFAULT_POLICY_ID); LLCoreHttpUtil::HttpCoroutineAdapter::ptr_t httpAdapter(new LLCoreHttpUtil::HttpCoroutineAdapter("ResetEnvironment", httpPolicy)); LLCore::HttpRequest::ptr_t httpRequest(new LLCore::HttpRequest); std::string url = gAgent.getRegionCapability("ExtEnvironment"); if (url.empty()) return; if ((parcel_id != INVALID_PARCEL_ID) || (track_no != NO_TRACK)) { std::stringstream query; query << "?"; if (parcel_id != INVALID_PARCEL_ID) { query << "parcelid=" << parcel_id; if (track_no != NO_TRACK) query << "&"; } if (track_no != NO_TRACK) { query << "trackno=" << track_no; } url += query.str(); } LLSD result = httpAdapter->deleteAndSuspend(httpRequest, url); // results that come back may contain the new settings LLSD notify; LLSD httpResults = result["http_result"]; LLCore::HttpStatus status = LLCoreHttpUtil::HttpCoroutineAdapter::getStatusFromLLSD(httpResults); LL_WARNS("LAPRAS") << "success=" << result["success"] << LL_ENDL; if ((!status) || !result["success"].asBoolean()) { LL_WARNS("WindlightCaps") << "Couldn't reset Windlight settings in " << ((parcel_id == INVALID_PARCEL_ID) ? ("region!") : ("parcel!")) << LL_ENDL; notify = LLSD::emptyMap(); notify["FAIL_REASON"] = result["message"].asString(); } else { LLSD environment = result[KEY_ENVIRONMENT]; if (environment.isDefined() && apply) { EnvironmentInfo::ptr_t envinfo = LLEnvironment::EnvironmentInfo::extract(environment); apply(parcel_id, envinfo); } } if (!notify.isUndefined()) { LLNotificationsUtil::add("WLRegionApplyFail", notify); //LLEnvManagerNew::instance().onRegionSettingsApplyResponse(false); } } //========================================================================= LLEnvironment::EnvironmentInfo::EnvironmentInfo(): mParcelId(INVALID_PARCEL_ID), mRegionId(), mDayLength(0), mDayOffset(0), mDayHash(0), mDayCycle(), mAltitudes({ { 0.0, 0.0, 0.0, 0.0 } }), mIsDefault(false), mIsLegacy(false), mDayCycleName(), mNameList(), mEnvVersion(INVALID_PARCEL_ENVIRONMENT_VERSION) { } LLEnvironment::EnvironmentInfo::ptr_t LLEnvironment::EnvironmentInfo::extract(LLSD environment) { ptr_t pinfo = std::make_shared(); pinfo->mIsDefault = environment.has(KEY_ISDEFAULT) ? environment[KEY_ISDEFAULT].asBoolean() : true; pinfo->mParcelId = environment.has(KEY_PARCELID) ? environment[KEY_PARCELID].asInteger() : INVALID_PARCEL_ID; pinfo->mRegionId = environment.has(KEY_REGIONID) ? environment[KEY_REGIONID].asUUID() : LLUUID::null; pinfo->mIsLegacy = false; if (environment.has(KEY_TRACKALTS)) { for (int idx = 0; idx < 3; idx++) { pinfo->mAltitudes[idx+1] = environment[KEY_TRACKALTS][idx].asReal(); } pinfo->mAltitudes[0] = 0; } if (environment.has(KEY_DAYCYCLE)) { pinfo->mDayCycle = LLSettingsVODay::buildFromEnvironmentMessage(environment[KEY_DAYCYCLE]); pinfo->mDayLength = LLSettingsDay::Seconds(environment.has(KEY_DAYLENGTH) ? environment[KEY_DAYLENGTH].asInteger() : -1); pinfo->mDayOffset = LLSettingsDay::Seconds(environment.has(KEY_DAYOFFSET) ? environment[KEY_DAYOFFSET].asInteger() : -1); pinfo->mDayHash = environment.has(KEY_DAYHASH) ? environment[KEY_DAYHASH].asInteger() : 0; } else { pinfo->mDayLength = LLEnvironment::instance().getEnvironmentDayLength(ENV_REGION); pinfo->mDayOffset = LLEnvironment::instance().getEnvironmentDayOffset(ENV_REGION); } if (environment.has(KEY_DAYASSET)) { pinfo->mAssetId = environment[KEY_DAYASSET].asUUID(); } if (environment.has(KEY_DAYNAMES)) { LLSD daynames = environment[KEY_DAYNAMES]; if (daynames.isArray()) { pinfo->mDayCycleName.clear(); for (S32 index = 0; index < pinfo->mNameList.size(); ++index) { pinfo->mNameList[index] = daynames[index].asString(); } } else if (daynames.isString()) { for (std::string &name: pinfo->mNameList) { name.clear(); } pinfo->mDayCycleName = daynames.asString(); } } else if (pinfo->mDayCycle) { pinfo->mDayCycleName = pinfo->mDayCycle->getName(); } if (environment.has(KEY_ENVVERSION)) { LLSD version = environment[KEY_ENVVERSION]; pinfo->mEnvVersion = version.asInteger(); } else { // can be used for region, but versions should be same pinfo->mEnvVersion = pinfo->mIsDefault ? UNSET_PARCEL_ENVIRONMENT_VERSION : INVALID_PARCEL_ENVIRONMENT_VERSION; } return pinfo; } LLEnvironment::EnvironmentInfo::ptr_t LLEnvironment::EnvironmentInfo::extractLegacy(LLSD legacy) { if (!legacy.isArray() || !legacy[0].has("regionID")) { LL_WARNS("ENVIRONMENT") << "Invalid legacy settings for environment: " << legacy << LL_ENDL; return ptr_t(); } ptr_t pinfo = std::make_shared(); pinfo->mIsDefault = false; pinfo->mParcelId = INVALID_PARCEL_ID; pinfo->mRegionId = legacy[0]["regionID"].asUUID(); pinfo->mIsLegacy = true; pinfo->mDayLength = LLSettingsDay::DEFAULT_DAYLENGTH; pinfo->mDayOffset = LLSettingsDay::DEFAULT_DAYOFFSET; pinfo->mDayCycle = LLSettingsVODay::buildFromLegacyMessage(pinfo->mRegionId, legacy[1], legacy[2], legacy[3]); if (pinfo->mDayCycle) pinfo->mDayHash = pinfo->mDayCycle->getHash(); pinfo->mAltitudes[0] = 0; pinfo->mAltitudes[2] = 10001; pinfo->mAltitudes[3] = 10002; pinfo->mAltitudes[4] = 10003; return pinfo; } //========================================================================= LLSettingsWater::ptr_t LLEnvironment::createWaterFromLegacyPreset(const std::string filename, LLSD &messages) { std::string name(gDirUtilp->getBaseFileName(LLURI::unescape(filename), true)); std::string path(gDirUtilp->getDirName(filename)); LLSettingsWater::ptr_t water = LLSettingsVOWater::buildFromLegacyPresetFile(name, path, messages); if (!water) { messages["NAME"] = name; messages["FILE"] = filename; } return water; } LLSettingsSky::ptr_t LLEnvironment::createSkyFromLegacyPreset(const std::string filename, LLSD &messages) { std::string name(gDirUtilp->getBaseFileName(LLURI::unescape(filename), true)); std::string path(gDirUtilp->getDirName(filename)); LLSettingsSky::ptr_t sky = LLSettingsVOSky::buildFromLegacyPresetFile(name, path, messages); if (!sky) { messages["NAME"] = name; messages["FILE"] = filename; } return sky; } LLSettingsDay::ptr_t LLEnvironment::createDayCycleFromLegacyPreset(const std::string filename, LLSD &messages) { std::string name(gDirUtilp->getBaseFileName(LLURI::unescape(filename), true)); std::string path(gDirUtilp->getDirName(filename)); LLSettingsDay::ptr_t day = LLSettingsVODay::buildFromLegacyPresetFile(name, path, messages); if (!day) { messages["NAME"] = name; messages["FILE"] = filename; } return day; } LLSettingsDay::ptr_t LLEnvironment::createDayCycleFromEnvironment(EnvSelection_t env, LLSettingsBase::ptr_t settings) { std::string type(settings->getSettingsType()); if (type == "daycycle") return std::static_pointer_cast(settings); if ((env != ENV_PARCEL) && (env != ENV_REGION)) { LL_WARNS("ENVIRONMENT") << "May only create from parcel or region environment." << LL_ENDL; return LLSettingsDay::ptr_t(); } LLSettingsDay::ptr_t day = this->getEnvironmentDay(env); if (!day && (env == ENV_PARCEL)) { day = this->getEnvironmentDay(ENV_REGION); } if (!day) { LL_WARNS("ENVIRONMENT") << "Could not retrieve existing day settings." << LL_ENDL; return LLSettingsDay::ptr_t(); } day = day->buildClone(); if (type == "sky") { for (S32 idx = 1; idx < LLSettingsDay::TRACK_MAX; ++idx) day->clearCycleTrack(idx); day->setSettingsAtKeyframe(settings, 0.0f, 1); } else if (type == "water") { day->clearCycleTrack(LLSettingsDay::TRACK_WATER); day->setSettingsAtKeyframe(settings, 0.0f, LLSettingsDay::TRACK_WATER); } return day; } void LLEnvironment::onAgentPositionHasChanged(const LLVector3 &localpos) { S32 trackno = calculateSkyTrackForAltitude(localpos.mV[VZ]); if (trackno == mCurrentTrack) return; mCurrentTrack = trackno; for (S32 env = ENV_LOCAL; env < ENV_DEFAULT; ++env) { if (mEnvironments[env]) mEnvironments[env]->setSkyTrack(mCurrentTrack); } } S32 LLEnvironment::calculateSkyTrackForAltitude(F64 altitude) { auto it = std::find_if_not(mTrackAltitudes.begin(), mTrackAltitudes.end(), [altitude](F32 test) { return altitude > test; }); if (it == mTrackAltitudes.begin()) return 1; else if (it == mTrackAltitudes.end()) return 4; return std::min(static_cast(std::distance(mTrackAltitudes.begin(), it)), 4); } //------------------------------------------------------------------------- void LLEnvironment::handleEnvironmentPush(LLSD &message) { // Log the experience message LLExperienceLog::instance().handleExperienceMessage(message); std::string action = message[KEY_ACTION].asString(); LLUUID experience_id = message[KEY_EXPERIENCEID].asUUID(); LLSD action_data = message[KEY_ACTIONDATA]; F32 transition_time = action_data[KEY_TRANSITIONTIME].asReal(); //TODO: Check here that the viewer thinks the experience is still valid. if (action == ACTION_CLEARENVIRONMENT) { handleEnvironmentPushClear(experience_id, action_data, transition_time); } else if (action == ACTION_PUSHFULLENVIRONMENT) { handleEnvironmentPushFull(experience_id, action_data, transition_time); } else if (action == ACTION_PUSHPARTIALENVIRONMENT) { handleEnvironmentPushPartial(experience_id, action_data, transition_time); } else { LL_WARNS("ENVIRONMENT", "GENERICMESSAGES") << "Unknown environment push action '" << action << "'" << LL_ENDL; } } void LLEnvironment::handleEnvironmentPushClear(LLUUID experience_id, LLSD &message, F32 transition) { clearExperienceEnvironment(experience_id, transition); } void LLEnvironment::handleEnvironmentPushFull(LLUUID experience_id, LLSD &message, F32 transition) { LLUUID asset_id(message[KEY_ASSETID].asUUID()); setExperienceEnvironment(experience_id, asset_id, LLSettingsBase::Seconds(transition)); } void LLEnvironment::handleEnvironmentPushPartial(LLUUID experience_id, LLSD &message, F32 transition) { LLSD settings(message["settings"]); if (settings.isUndefined()) return; setExperienceEnvironment(experience_id, settings, LLSettingsBase::Seconds(transition)); } void LLEnvironment::clearExperienceEnvironment(LLUUID experience_id, F32 transition_time) { if (hasEnvironment(ENV_PUSH)) { clearEnvironment(ENV_PUSH); updateEnvironment(LLSettingsBase::Seconds(transition_time)); } } void LLEnvironment::setSharedEnvironment() { clearEnvironment(LLEnvironment::ENV_LOCAL); setSelectedEnvironment(LLEnvironment::ENV_LOCAL); updateEnvironment(); } void LLEnvironment::setExperienceEnvironment(LLUUID experience_id, LLUUID asset_id, F32 transition_time) { LLSettingsVOBase::getSettingsAsset(asset_id, [this, experience_id, transition_time](LLUUID asset_id, LLSettingsBase::ptr_t settings, S32 status, LLExtStat) { // individual settings will be overridden by the settings. No need to keep injections. onSetEnvAssetLoaded(ENV_PUSH, asset_id, settings, LLSettingsDay::DEFAULT_DAYLENGTH, LLSettingsDay::DEFAULT_DAYOFFSET, LLSettingsBase::Seconds(transition_time), status, NO_VERSION); }); } void LLEnvironment::setExperienceEnvironment(LLUUID experience_id, LLSD data, F32 transition_time) { LLSD sky(data["sky"]); LLSD water(data["water"]); if (sky.isUndefined() && water.isUndefined()) { clearExperienceEnvironment(experience_id, transition_time); return; } LLSettingsInjectedSky::ptr_t pinjectedsky; LLSettingsInjectedWater::ptr_t pinjectedwater; fixedEnvironment_t pushenv = getEnvironmentFixed(ENV_PUSH, true); if (!sky.isUndefined()) { bool newsky(false); if (pushenv.first) { pinjectedsky = std::dynamic_pointer_cast(pushenv.first); } if (!pinjectedsky) { pinjectedsky = std::make_shared(pushenv.first); newsky = true; } pinjectedsky->injectExperienceValues(sky, experience_id, F32Seconds(transition_time)); if (!newsky) pinjectedsky.reset(); } if (!water.isUndefined()) { bool newwater(false); if (pushenv.second) { pinjectedwater = std::dynamic_pointer_cast(pushenv.second); } if (!pinjectedwater) { pinjectedwater = std::make_shared(pushenv.second); newwater = true; } pinjectedwater->injectExperienceValues(water, experience_id, F32Seconds(transition_time)); if (!newwater) pinjectedwater.reset(); } if (pinjectedsky || pinjectedwater) { setEnvironment(ENV_PUSH, pinjectedsky, pinjectedwater); updateEnvironment(TRANSITION_INSTANT); } } void LLEnvironment::listenExperiencePump(const LLSD &message) { LL_WARNS("LAPRAS") << "Have experience event: " << message << LL_ENDL; LLUUID experience_id = message["experience"]; LLSD data = message[experience_id.asString()]; std::string permission(data["permission"].asString()); if ((permission == "Forget") || (permission == "Block")) { clearExperienceEnvironment(experience_id, (permission == "Block") ? TRANSITION_INSTANT : TRANSITION_FAST); } } //========================================================================= LLEnvironment::DayInstance::DayInstance(EnvSelection_t env) : mDayCycle(), mSky(), mWater(), mDayLength(LLSettingsDay::DEFAULT_DAYLENGTH), mDayOffset(LLSettingsDay::DEFAULT_DAYOFFSET), mBlenderSky(), mBlenderWater(), mInitialized(false), mType(TYPE_INVALID), mSkyTrack(1), mEnv(env), mBackup(false) { } LLEnvironment::DayInstance::ptr_t LLEnvironment::DayInstance::clone() const { ptr_t environment = std::make_shared(mEnv); environment->mDayCycle = mDayCycle; environment->mSky = mSky; environment->mWater = mWater; environment->mDayLength = mDayLength; environment->mDayOffset = mDayOffset; environment->mBlenderSky = mBlenderSky; environment->mBlenderWater = mBlenderWater; environment->mInitialized = mInitialized; environment->mType = mType; environment->mSkyTrack = mSkyTrack; return environment; } void LLEnvironment::DayInstance::applyTimeDelta(const LLSettingsBase::Seconds& delta) { bool changed(false); if (!mInitialized) initialize(); if (mBlenderSky) changed |= mBlenderSky->applyTimeDelta(delta); if (mBlenderWater) changed |= mBlenderWater->applyTimeDelta(delta); if (mBackup && changed) backup(); } void LLEnvironment::DayInstance::setDay(const LLSettingsDay::ptr_t &pday, LLSettingsDay::Seconds daylength, LLSettingsDay::Seconds dayoffset) { if (mType == TYPE_FIXED) LL_WARNS("ENVIRONMENT") << "Fixed day instance changed to Cycled" << LL_ENDL; mType = TYPE_CYCLED; mInitialized = false; mDayCycle = pday; mDayLength = daylength; mDayOffset = dayoffset; mBlenderSky.reset(); mBlenderWater.reset(); mSky = LLSettingsVOSky::buildDefaultSky(); mWater = LLSettingsVOWater::buildDefaultWater(); animate(); } void LLEnvironment::DayInstance::setSky(const LLSettingsSky::ptr_t &psky) { if (mType == TYPE_CYCLED) LL_WARNS("ENVIRONMENT") << "Cycled day instance changed to FIXED" << LL_ENDL; mType = TYPE_FIXED; mInitialized = false; bool different_sky = mSky != psky; mSky = psky; mSky->mReplaced |= different_sky; mSky->update(); mBlenderSky.reset(); if (mBackup) backup(); if (gAtmosphere) { AtmosphericModelSettings settings; LLEnvironment::getAtmosphericModelSettings(settings, psky); gAtmosphere->configureAtmosphericModel(settings); } } void LLEnvironment::DayInstance::setWater(const LLSettingsWater::ptr_t &pwater) { if (mType == TYPE_CYCLED) LL_WARNS("ENVIRONMENT") << "Cycled day instance changed to FIXED" << LL_ENDL; mType = TYPE_FIXED; mInitialized = false; mWater = pwater; mWater->update(); mBlenderWater.reset(); if (mBackup) backup(); } void LLEnvironment::DayInstance::initialize() { mInitialized = true; if (!mWater) mWater = LLSettingsVOWater::buildDefaultWater(); if (!mSky) mSky = LLSettingsVOSky::buildDefaultSky(); } void LLEnvironment::DayInstance::clear() { mType = TYPE_INVALID; mDayCycle.reset(); mSky.reset(); mWater.reset(); mDayLength = LLSettingsDay::DEFAULT_DAYLENGTH; mDayOffset = LLSettingsDay::DEFAULT_DAYOFFSET; mBlenderSky.reset(); mBlenderWater.reset(); mSkyTrack = 1; } void LLEnvironment::DayInstance::setSkyTrack(S32 trackno) { mSkyTrack = trackno; if (mBlenderSky) { mBlenderSky->switchTrack(trackno, 0.0); } } void LLEnvironment::DayInstance::setBlenders(const LLSettingsBlender::ptr_t &skyblend, const LLSettingsBlender::ptr_t &waterblend) { mBlenderSky = skyblend; mBlenderWater = waterblend; } void LLEnvironment::DayInstance::setBackup(bool backupval) { if (backupval == mBackup) return; mBackup = backupval; LLSettingsSky::ptr_t psky = getSky(); if (mBackup) { backup(); } else { restore(); mBackupSky = LLSD(); mBackupWater = LLSD(); } } void LLEnvironment::DayInstance::backup() { if (!mBackup) return; if (mSky) { mBackupSky = mSky->cloneSettings(); } if (mWater) { mBackupWater = mWater->cloneSettings(); } } void LLEnvironment::DayInstance::restore() { if (!mBackupSky.isUndefined() && mSky) { mSky->replaceSettings(mBackupSky); } if (!mBackupWater.isUndefined() && mWater) { mWater->replaceSettings(mBackupWater); } } LLSettingsBase::TrackPosition LLEnvironment::DayInstance::secondsToKeyframe(LLSettingsDay::Seconds seconds) { return convert_time_to_position(seconds, mDayLength); } void LLEnvironment::DayInstance::animate() { LLSettingsBase::Seconds now(LLDate::now().secondsSinceEpoch()); now += mDayOffset; if (!mDayCycle) return; LLSettingsDay::CycleTrack_t &wtrack = mDayCycle->getCycleTrack(0); if (wtrack.empty()) { mWater.reset(); mBlenderWater.reset(); } else { mWater = LLSettingsVOWater::buildDefaultWater(); mBlenderWater = std::make_shared(mWater, mDayCycle, 0, mDayLength, mDayOffset, DEFAULT_UPDATE_THRESHOLD); } // sky, initialize to track 1 LLSettingsDay::CycleTrack_t &track = mDayCycle->getCycleTrack(1); if (track.empty()) { mSky.reset(); mBlenderSky.reset(); } else { mSky = LLSettingsVOSky::buildDefaultSky(); mBlenderSky = std::make_shared(mSky, mDayCycle, 1, mDayLength, mDayOffset, DEFAULT_UPDATE_THRESHOLD); mBlenderSky->switchTrack(mSkyTrack, 0.0); } } //------------------------------------------------------------------------- LLEnvironment::DayTransition::DayTransition(const LLSettingsSky::ptr_t &skystart, const LLSettingsWater::ptr_t &waterstart, LLEnvironment::DayInstance::ptr_t &end, LLSettingsDay::Seconds time) : DayInstance(ENV_NONE), mStartSky(skystart), mStartWater(waterstart), mNextInstance(end), mTransitionTime(time) { } void LLEnvironment::DayTransition::applyTimeDelta(const LLSettingsBase::Seconds& delta) { mNextInstance->applyTimeDelta(delta); DayInstance::applyTimeDelta(delta); } void LLEnvironment::DayTransition::animate() { mNextInstance->animate(); mWater = mStartWater->buildClone(); mBlenderWater = std::make_shared(mWater, mStartWater, mNextInstance->getWater(), mTransitionTime); mBlenderWater->setOnFinished( [this](LLSettingsBlender::ptr_t blender) { mBlenderWater.reset(); if (!mBlenderSky && !mBlenderWater) LLEnvironment::instance().mCurrentEnvironment = mNextInstance; else setWater(mNextInstance->getWater()); }); mSky = mStartSky->buildClone(); mBlenderSky = std::make_shared(mSky, mStartSky, mNextInstance->getSky(), mTransitionTime); mBlenderSky->setOnFinished( [this](LLSettingsBlender::ptr_t blender) { mBlenderSky.reset(); if (!mBlenderSky && !mBlenderWater) LLEnvironment::instance().mCurrentEnvironment = mNextInstance; else setSky(mNextInstance->getSky()); }); } //========================================================================= LLTrackBlenderLoopingManual::LLTrackBlenderLoopingManual(const LLSettingsBase::ptr_t &target, const LLSettingsDay::ptr_t &day, S32 trackno) : LLSettingsBlender(target, LLSettingsBase::ptr_t(), LLSettingsBase::ptr_t()), mDay(day), mTrackNo(trackno), mPosition(0.0) { LLSettingsDay::TrackBound_t initial = getBoundingEntries(mPosition); if (initial.first != mEndMarker) { // No frames in track mInitial = (*initial.first).second; mFinal = (*initial.second).second; LLSD initSettings = mInitial->getSettings(); mTarget->replaceSettings(initSettings); } } LLSettingsBase::BlendFactor LLTrackBlenderLoopingManual::setPosition(const LLSettingsBase::TrackPosition& position) { mPosition = llclamp(position, 0.0f, 1.0f); LLSettingsDay::TrackBound_t bounds = getBoundingEntries(mPosition); if (bounds.first == mEndMarker) { // No frames in track. return 0.0; } mInitial = (*bounds.first).second; mFinal = (*bounds.second).second; F64 spanLength = getSpanLength(bounds); F64 spanPos = ((mPosition < (*bounds.first).first) ? (mPosition + 1.0) : mPosition) - (*bounds.first).first; if (spanPos > spanLength) { // we are clamping position to 0-1 and spanLength is 1 // so don't account for case of spanPos == spanLength spanPos = fmod(spanPos, spanLength); } F64 blendf = spanPos / spanLength; return LLSettingsBlender::setBlendFactor(blendf); } void LLTrackBlenderLoopingManual::switchTrack(S32 trackno, const LLSettingsBase::TrackPosition& position) { mTrackNo = trackno; LLSettingsBase::TrackPosition useposition = (position < 0.0) ? mPosition : position; setPosition(useposition); } LLSettingsDay::TrackBound_t LLTrackBlenderLoopingManual::getBoundingEntries(F64 position) { LLSettingsDay::CycleTrack_t &wtrack = mDay->getCycleTrack(mTrackNo); mEndMarker = wtrack.end(); LLSettingsDay::TrackBound_t bounds = get_bounding_entries(wtrack, position); return bounds; } F64 LLTrackBlenderLoopingManual::getSpanLength(const LLSettingsDay::TrackBound_t &bounds) const { return get_wrapping_distance((*bounds.first).first, (*bounds.second).first); } //=========================================================================