/** * @file llsettingsvo.cpp * @author Rider Linden * @brief Subclasses for viewer specific settings behaviors. * * $LicenseInfo:2011&license=viewerlgpl$ * 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 "llviewercontrol.h" #include "llsettingsvo.h" #include "pipeline.h" #include #include #include #include "lltrace.h" #include "llfasttimer.h" #include "v3colorutil.h" #include "llglslshader.h" #include "llviewershadermgr.h" #include "llagent.h" #include "llassettype.h" #include "llnotificationsutil.h" #include "llviewerregion.h" #include "llviewerassetupload.h" #include "llviewerinventory.h" #include "llenvironment.h" #include "llsky.h" #include "llpermissions.h" #include "llinventorymodel.h" #include "llassetstorage.h" #include "llvfile.h" #include "lldrawpoolwater.h" #include #undef VERIFY_LEGACY_CONVERSION //========================================================================= namespace { LLSD ensure_array_4(LLSD in, F32 fill); LLSD read_legacy_preset_data(const std::string& path); //------------------------------------------------------------------------- class LLSettingsInventoryCB : public LLInventoryCallback { public: typedef std::function callback_t; LLSettingsInventoryCB(callback_t cbfn) : mCbfn(cbfn) { } void fire(const LLUUID& inv_item) override { if (mCbfn) mCbfn(inv_item); } private: callback_t mCbfn; }; //------------------------------------------------------------------------- } //========================================================================= void LLSettingsVOBase::createInventoryItem(const LLSettingsBase::ptr_t &settings, inventory_result_fn callback) { LLTransactionID tid; LLUUID parentFolder; //= gInventory.findCategoryUUIDForType(LLFolderType::FT_OBJECT); U32 nextOwnerPerm = LLPermissions::DEFAULT.getMaskNextOwner(); tid.generate(); LLPointer cb = new LLSettingsInventoryCB([settings, callback](const LLUUID &inventoryId) { LLSettingsVOBase::onInventoryItemCreated(inventoryId, settings, callback); }); create_inventory_settings(gAgent.getID(), gAgent.getSessionID(), parentFolder, tid, settings->getName(), "new settings collection.", settings->getSettingsTypeValue(), nextOwnerPerm, cb); } void LLSettingsVOBase::onInventoryItemCreated(const LLUUID &inventoryId, LLSettingsBase::ptr_t settings, inventory_result_fn callback) { // We need to update some inventory stuff here.... maybe. updateInventoryItem(settings, inventoryId, callback); } void LLSettingsVOBase::updateInventoryItem(const LLSettingsBase::ptr_t &settings, LLUUID inv_item_id, inventory_result_fn callback) { const LLViewerRegion* region = gAgent.getRegion(); if (!region) { LL_WARNS("SETTINGS") << "Not connected to a region, cannot save setting." << LL_ENDL; return; } std::string agent_url(region->getCapability("UpdateSettingsAgentInventory")); if (!LLEnvironment::instance().isInventoryEnabled()) { LL_WARNS("SETTINGS") << "Region does not support settings inventory objects." << LL_ENDL; return; } std::stringstream buffer; LLSD settingdata(settings->getSettings()); LLSDSerialize::serialize(settingdata, buffer, LLSDSerialize::LLSD_NOTATION); LLResourceUploadInfo::ptr_t uploadInfo = std::make_shared(inv_item_id, LLAssetType::AT_SETTINGS, buffer.str(), [settings, callback](LLUUID itemId, LLUUID newAssetId, LLUUID newItemId, LLSD response) { LLSettingsVOBase::onAgentAssetUploadComplete(itemId, newAssetId, newItemId, response, settings, callback); }); LLViewerAssetUpload::EnqueueInventoryUpload(agent_url, uploadInfo); } void LLSettingsVOBase::updateInventoryItem(const LLSettingsBase::ptr_t &settings, LLUUID object_id, LLUUID inv_item_id, inventory_result_fn callback) { const LLViewerRegion* region = gAgent.getRegion(); if (!region) { LL_WARNS("SETTINGS") << "Not connected to a region, cannot save setting." << LL_ENDL; return; } std::string agent_url(region->getCapability("UpdateSettingsAgentInventory")); if (!LLEnvironment::instance().isInventoryEnabled()) { LL_WARNS("SETTINGS") << "Region does not support settings inventory objects." << LL_ENDL; return; } std::stringstream buffer; LLSD settingdata(settings->getSettings()); LL_WARNS("LAPRAS") << "Sending '" << settingdata << "' for asset." << LL_ENDL; LLSDSerialize::serialize(settingdata, buffer, LLSDSerialize::LLSD_NOTATION); LLResourceUploadInfo::ptr_t uploadInfo = std::make_shared(object_id, inv_item_id, LLAssetType::AT_SETTINGS, buffer.str(), [settings, callback](LLUUID itemId, LLUUID taskId, LLUUID newAssetId, LLSD response) { LLSettingsVOBase::onTaskAssetUploadComplete(itemId, taskId, newAssetId, response, settings, callback); }); LLViewerAssetUpload::EnqueueInventoryUpload(agent_url, uploadInfo); } void LLSettingsVOBase::onAgentAssetUploadComplete(LLUUID itemId, LLUUID newAssetId, LLUUID newItemId, LLSD response, LLSettingsBase::ptr_t psettings, inventory_result_fn callback) { LL_WARNS("SETTINGS") << "itemId:" << itemId << " newAssetId:" << newAssetId << " newItemId:" << newItemId << " response:" << response << LL_ENDL; if (callback) callback( newAssetId, itemId, LLUUID::null, response ); } void LLSettingsVOBase::onTaskAssetUploadComplete(LLUUID itemId, LLUUID taskId, LLUUID newAssetId, LLSD response, LLSettingsBase::ptr_t psettings, inventory_result_fn callback) { LL_WARNS("SETTINGS") << "Upload to task complete!" << LL_ENDL; if (callback) callback(newAssetId, itemId, taskId, response); } void LLSettingsVOBase::getSettingsAsset(const LLUUID &assetId, LLSettingsVOBase::asset_download_fn callback) { gAssetStorage->getAssetData(assetId, LLAssetType::AT_SETTINGS, [callback](LLVFS *vfs, const LLUUID &asset_id, LLAssetType::EType, void *, S32 status, LLExtStat ext_status) { onAssetDownloadComplete(vfs, asset_id, status, ext_status, callback); }, nullptr, true); } void LLSettingsVOBase::onAssetDownloadComplete(LLVFS *vfs, const LLUUID &asset_id, S32 status, LLExtStat ext_status, LLSettingsVOBase::asset_download_fn callback) { LLSettingsBase::ptr_t settings; if (!status) { LLVFile file(vfs, asset_id, LLAssetType::AT_SETTINGS, LLVFile::READ); S32 size = file.getSize(); std::string buffer(size + 1, '\0'); file.read((U8 *)buffer.data(), size); std::stringstream llsdstream(buffer); LLSD llsdsettings; if (LLSDSerialize::deserialize(llsdsettings, llsdstream, -1)) { settings = createFromLLSD(llsdsettings); } if (!settings) { status = 1; LL_WARNS("SETTINGS") << "Unable to creat settings object." << LL_ENDL; } else { settings->setAssetId(asset_id); } } else { LL_WARNS("SETTINGS") << "Error retrieving asset " << asset_id << ". Status code=" << status << "(" << LLAssetStorage::getErrorString(status) << ") ext_status=" << ext_status << LL_ENDL; } if (callback) callback(asset_id, settings, status, ext_status); } bool LLSettingsVOBase::exportFile(const LLSettingsBase::ptr_t &settings, const std::string &filename, LLSDSerialize::ELLSD_Serialize format) { try { std::ofstream file(filename, std::ios::out | std::ios::trunc); file.exceptions(std::ios_base::failbit | std::ios_base::badbit); if (!file) { LL_WARNS("SETTINGS") << "Unable to open '" << filename << "' for writing." << LL_ENDL; return false; } LLSDSerialize::serialize(settings->getSettings(), file, format); } catch (const std::ios_base::failure &e) { LL_WARNS("SETTINGS") << "Unable to save settings to file '" << filename << "': " << e.what() << LL_ENDL; return false; } return true; } LLSettingsBase::ptr_t LLSettingsVOBase::importFile(const std::string &filename) { LLSD settings; try { std::ifstream file(filename, std::ios::in); file.exceptions(std::ios_base::failbit | std::ios_base::badbit); if (!file) { LL_WARNS("SETTINGS") << "Unable to open '" << filename << "' for reading." << LL_ENDL; return LLSettingsBase::ptr_t(); } if (!LLSDSerialize::deserialize(settings, file, -1)) { LL_WARNS("SETTINGS") << "Unable to deserialize settings from '" << filename << "'" << LL_ENDL; return LLSettingsBase::ptr_t(); } } catch (const std::ios_base::failure &e) { LL_WARNS("SETTINGS") << "Unable to save settings to file '" << filename << "': " << e.what() << LL_ENDL; return LLSettingsBase::ptr_t(); } return createFromLLSD(settings); } LLSettingsBase::ptr_t LLSettingsVOBase::createFromLLSD(const LLSD &settings) { if (!settings.has(SETTING_TYPE)) { LL_WARNS("SETTINGS") << "No settings type in LLSD" << LL_ENDL; return LLSettingsBase::ptr_t(); } std::string settingtype = settings[SETTING_TYPE].asString(); LLSettingsBase::ptr_t psetting; if (settingtype == "water") { return LLSettingsVOWater::buildWater(settings); } else if (settingtype == "sky") { return LLSettingsVOSky::buildSky(settings); } else if (settingtype == "daycycle") { return LLSettingsVODay::buildDay(settings); } LL_WARNS("SETTINGS") << "Unable to determine settings type for '" << settingtype << "'." << LL_ENDL; return LLSettingsBase::ptr_t(); } //========================================================================= LLSettingsVOSky::LLSettingsVOSky(const LLSD &data, bool isAdvanced) : LLSettingsSky(data) , m_isAdvanced(isAdvanced) { } LLSettingsVOSky::LLSettingsVOSky() : LLSettingsSky() , m_isAdvanced(false) { } //------------------------------------------------------------------------- LLSettingsSky::ptr_t LLSettingsVOSky::buildSky(LLSD settings) { LLSettingsSky::validation_list_t validations = LLSettingsSky::validationList(); LLSD results = LLSettingsBase::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Sky setting validation failed!\n" << results << LL_ENDL; LLSettingsSky::ptr_t(); } return std::make_shared(settings, true); } LLSettingsSky::ptr_t LLSettingsVOSky::buildFromLegacyPreset(const std::string &name, const LLSD &legacy) { LLSD newsettings = LLSettingsSky::translateLegacySettings(legacy); newsettings[SETTING_NAME] = name; LLSettingsSky::validation_list_t validations = LLSettingsSky::validationList(); LLSD results = LLSettingsBase::settingValidation(newsettings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Sky setting validation failed!\n" << results << LL_ENDL; LLSettingsSky::ptr_t(); } LLSettingsSky::ptr_t skyp = std::make_shared(newsettings); #ifdef VERIFY_LEGACY_CONVERSION LLSD oldsettings = LLSettingsVOSky::convertToLegacy(skyp, isAdvanced()); if (!llsd_equals(legacy, oldsettings)) { LL_WARNS("SKY") << "Conversion to/from legacy does not match!\n" << "Old: " << legacy << "new: " << oldsettings << LL_ENDL; } #endif return skyp; } namespace { // This is a disturbing hack std::string legacy_name_to_filename(const std::string &name) { std::string fixedname(LLURI::escape(name)); boost::algorithm::replace_all(fixedname, "-", "%2D"); return fixedname; } } LLSettingsSky::ptr_t LLSettingsVOSky::buildFromLegacyPresetFile(const std::string &name, const std::string &path) { std::string full_path(path); std::string full_name(legacy_name_to_filename(name)); full_name += ".xml"; gDirUtilp->append(full_path, full_name); LLSD legacy_data = read_legacy_preset_data(full_path); if (!legacy_data) { LL_WARNS("SETTINGS") << "Could not load legacy Windlight \"" << name << "\" from " << full_path << LL_ENDL; return ptr_t(); } return buildFromLegacyPreset(name, legacy_data); } LLSettingsSky::ptr_t LLSettingsVOSky::buildDefaultSky() { static LLSD default_settings; if (!default_settings.size()) { default_settings = LLSettingsSky::defaults(); default_settings[SETTING_NAME] = std::string("_default_"); LLSettingsSky::validation_list_t validations = LLSettingsSky::validationList(); LLSD results = LLSettingsBase::settingValidation(default_settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Sky setting validation failed!\n" << results << LL_ENDL; LLSettingsSky::ptr_t(); } } LLSettingsSky::ptr_t skyp = std::make_shared(default_settings); return skyp; } LLSettingsSky::ptr_t LLSettingsVOSky::buildClone() { LLSD settings = cloneSettings(); LLSettingsSky::validation_list_t validations = LLSettingsSky::validationList(); LLSD results = LLSettingsBase::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Sky setting validation failed!\n" << results << LL_ENDL; LLSettingsSky::ptr_t(); } LLSettingsSky::ptr_t skyp = std::make_shared(settings); return skyp; } void LLSettingsVOSky::convertAtmosphericsToLegacy(LLSD& legacy, LLSD& settings) { // These will need to be inferred from new settings' density profiles if (settings.has(SETTING_LEGACY_HAZE)) { LLSD legacyhaze = settings[SETTING_LEGACY_HAZE]; legacy[SETTING_AMBIENT] = ensure_array_4(legacyhaze[SETTING_AMBIENT], 1.0f); legacy[SETTING_BLUE_DENSITY] = ensure_array_4(legacyhaze[SETTING_BLUE_DENSITY], 1.0); legacy[SETTING_BLUE_HORIZON] = ensure_array_4(legacyhaze[SETTING_BLUE_HORIZON], 1.0); legacy[SETTING_DENSITY_MULTIPLIER] = LLSDArray(legacyhaze[SETTING_DENSITY_MULTIPLIER].asReal())(0.0f)(0.0f)(1.0f); legacy[SETTING_DISTANCE_MULTIPLIER] = LLSDArray(legacyhaze[SETTING_DISTANCE_MULTIPLIER].asReal())(0.0f)(0.0f)(1.0f); legacy[SETTING_HAZE_DENSITY] = LLSDArray(legacyhaze[SETTING_HAZE_DENSITY])(0.0f)(0.0f)(1.0f); legacy[SETTING_HAZE_HORIZON] = LLSDArray(legacyhaze[SETTING_HAZE_HORIZON])(0.0f)(0.0f)(1.0f); } } LLSD LLSettingsVOSky::convertToLegacy(const LLSettingsSky::ptr_t &psky, bool isAdvanced) { LLSD legacy(LLSD::emptyMap()); LLSD settings = psky->getSettings(); convertAtmosphericsToLegacy(legacy, settings); legacy[SETTING_CLOUD_COLOR] = ensure_array_4(settings[SETTING_CLOUD_COLOR], 1.0); legacy[SETTING_CLOUD_POS_DENSITY1] = ensure_array_4(settings[SETTING_CLOUD_POS_DENSITY1], 1.0); legacy[SETTING_CLOUD_POS_DENSITY2] = ensure_array_4(settings[SETTING_CLOUD_POS_DENSITY2], 1.0); legacy[SETTING_CLOUD_SCALE] = LLSDArray(settings[SETTING_CLOUD_SCALE])(LLSD::Real(0.0))(LLSD::Real(0.0))(LLSD::Real(1.0)); legacy[SETTING_CLOUD_SCROLL_RATE] = settings[SETTING_CLOUD_SCROLL_RATE]; legacy[SETTING_LEGACY_ENABLE_CLOUD_SCROLL] = LLSDArray(LLSD::Boolean(!is_approx_zero(settings[SETTING_CLOUD_SCROLL_RATE][0].asReal()))) (LLSD::Boolean(!is_approx_zero(settings[SETTING_CLOUD_SCROLL_RATE][1].asReal()))); legacy[SETTING_CLOUD_SHADOW] = LLSDArray(settings[SETTING_CLOUD_SHADOW].asReal())(0.0f)(0.0f)(1.0f); legacy[SETTING_GAMMA] = LLSDArray(settings[SETTING_GAMMA])(0.0f)(0.0f)(1.0f); legacy[SETTING_GLOW] = ensure_array_4(settings[SETTING_GLOW], 1.0); legacy[SETTING_LIGHT_NORMAL] = ensure_array_4(psky->getLightDirection().getValue(), 0.0f); legacy[SETTING_MAX_Y] = LLSDArray(settings[SETTING_MAX_Y])(0.0f)(0.0f)(1.0f); legacy[SETTING_STAR_BRIGHTNESS] = settings[SETTING_STAR_BRIGHTNESS]; legacy[SETTING_SUNLIGHT_COLOR] = ensure_array_4(settings[SETTING_SUNLIGHT_COLOR], 1.0f); LLQuaternion sunquat = psky->getSunRotation(); F32 roll; F32 pitch; F32 yaw; // get euler angles in right-handed X right, Y up, Z at sunquat.getEulerAngles(&roll, &pitch, &yaw); legacy[SETTING_LEGACY_EAST_ANGLE] = yaw; legacy[SETTING_LEGACY_SUN_ANGLE] = -pitch; return legacy; } //------------------------------------------------------------------------- void LLSettingsVOSky::updateSettings() { LLSettingsSky::updateSettings(); LLVector3 sun_direction = getSunDirection(); LLVector3 moon_direction = getMoonDirection(); F32 dp = getLightDirection() * LLVector3(0.0f, 0.0f, 1.0f); if (dp < 0) { dp = 0; } dp = llmax(dp, 0.1f); // Since WL scales everything by 2, there should always be at least a 2:1 brightness ratio // between sunlight and point lights in windlight to normalize point lights. F32 sun_dynamic_range = llmax(gSavedSettings.getF32("RenderSunDynamicRange"), 0.0001f); mSceneLightStrength = 2.0f * (1.0f + sun_dynamic_range * dp); // Axis swaps convert from +x right, +z up, +y at // to CFR +x at, +z up, +y right coord sys LLVector3 sun_direction_cfr(sun_direction.mV[0], -sun_direction.mV[1], sun_direction.mV[2]); LLVector3 moon_direction_cfr(moon_direction.mV[0], -moon_direction.mV[1], moon_direction.mV[2]); gSky.setSunAndMoonDirectionsCFR(sun_direction_cfr, moon_direction_cfr); gSky.setSunTextures(getSunTextureId(), getNextSunTextureId()); gSky.setMoonTextures(getMoonTextureId(), getNextMoonTextureId()); gSky.setCloudNoiseTextures(getCloudNoiseTextureId(), getNextCloudNoiseTextureId()); } void LLSettingsVOSky::applySpecial(void *ptarget) { LLGLSLShader *shader = (LLGLSLShader *)ptarget; LLVector4 light_direction = LLEnvironment::instance().getClampedSunNorm(); if (shader->mShaderGroup == LLGLSLShader::SG_DEFAULT) { shader->uniform4fv(LLViewerShaderMgr::LIGHTNORM, 1, light_direction.mV); shader->uniform3fv(LLShaderMgr::WL_CAMPOSLOCAL, 1, LLViewerCamera::getInstance()->getOrigin().mV); } else if (shader->mShaderGroup == LLGLSLShader::SG_SKY) { shader->uniform4fv(LLViewerShaderMgr::LIGHTNORM, 1, light_direction.mV); LLVector4 vect_c_p_d1(mSettings[SETTING_CLOUD_POS_DENSITY1]); vect_c_p_d1 += LLVector4(LLEnvironment::instance().getCloudScrollDelta()); shader->uniform4fv(LLShaderMgr::CLOUD_POS_DENSITY1, 1, vect_c_p_d1.mV); } shader->uniform1f(LLShaderMgr::SCENE_LIGHT_STRENGTH, mSceneLightStrength); shader->uniform4f(LLShaderMgr::GAMMA, getGamma(), 0.0, 0.0, 1.0); } LLSettingsSky::parammapping_t LLSettingsVOSky::getParameterMap() const { static parammapping_t param_map; if (param_map.empty()) { // LEGACY_ATMOSPHERICS param_map[SETTING_AMBIENT] = LLShaderMgr::AMBIENT; param_map[SETTING_BLUE_DENSITY] = LLShaderMgr::BLUE_DENSITY; param_map[SETTING_BLUE_HORIZON] = LLShaderMgr::BLUE_HORIZON; param_map[SETTING_HAZE_DENSITY] = LLShaderMgr::HAZE_DENSITY; param_map[SETTING_HAZE_HORIZON] = LLShaderMgr::HAZE_HORIZON; param_map[SETTING_DENSITY_MULTIPLIER] = LLShaderMgr::DENSITY_MULTIPLIER; param_map[SETTING_DISTANCE_MULTIPLIER] = LLShaderMgr::DISTANCE_MULTIPLIER; param_map[SETTING_CLOUD_COLOR] = LLShaderMgr::CLOUD_COLOR; param_map[SETTING_CLOUD_POS_DENSITY2] = LLShaderMgr::CLOUD_POS_DENSITY2; param_map[SETTING_CLOUD_SCALE] = LLShaderMgr::CLOUD_SCALE; param_map[SETTING_CLOUD_SHADOW] = LLShaderMgr::CLOUD_SHADOW; param_map[SETTING_GLOW] = LLShaderMgr::GLOW; param_map[SETTING_MAX_Y] = LLShaderMgr::MAX_Y; param_map[SETTING_SUNLIGHT_COLOR] = LLShaderMgr::SUNLIGHT_COLOR; // AdvancedAtmospherics TODO // Provide mappings for new shader params here } return param_map; } //========================================================================= const F32 LLSettingsVOWater::WATER_FOG_LIGHT_CLAMP(0.3f); //------------------------------------------------------------------------- LLSettingsVOWater::LLSettingsVOWater(const LLSD &data) : LLSettingsWater(data) { } LLSettingsVOWater::LLSettingsVOWater() : LLSettingsWater() { } LLSettingsWater::ptr_t LLSettingsVOWater::buildWater(LLSD settings) { LLSettingsWater::validation_list_t validations = LLSettingsWater::validationList(); LLSD results = LLSettingsWater::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Water setting validation failed!\n" << results << LL_ENDL; LLSettingsWater::ptr_t(); } return std::make_shared(settings); } //------------------------------------------------------------------------- LLSettingsWater::ptr_t LLSettingsVOWater::buildFromLegacyPreset(const std::string &name, const LLSD &legacy) { LLSD newsettings(LLSettingsWater::translateLegacySettings(legacy)); newsettings[SETTING_NAME] = name; LLSettingsWater::validation_list_t validations = LLSettingsWater::validationList(); LLSD results = LLSettingsWater::settingValidation(newsettings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Water setting validation failed!: " << results << LL_ENDL; return LLSettingsWater::ptr_t(); } LLSettingsWater::ptr_t waterp = std::make_shared(newsettings); #ifdef VERIFY_LEGACY_CONVERSION LLSD oldsettings = LLSettingsVOWater::convertToLegacy(waterp); if (!llsd_equals(legacy, oldsettings)) { LL_WARNS("WATER") << "Conversion to/from legacy does not match!\n" << "Old: " << legacy << "new: " << oldsettings << LL_ENDL; } #endif return waterp; } LLSettingsWater::ptr_t LLSettingsVOWater::buildFromLegacyPresetFile(const std::string &name, const std::string &path) { std::string full_path(path); std::string full_name(legacy_name_to_filename(name)); full_name += ".xml"; gDirUtilp->append(full_path, full_name); LLSD legacy_data = read_legacy_preset_data(full_path); if (!legacy_data) { LL_WARNS("SETTINGS") << "Could not load legacy Windlight \"" << name << "\" from " << full_path << LL_ENDL; return ptr_t(); } return buildFromLegacyPreset(name, legacy_data); } LLSettingsWater::ptr_t LLSettingsVOWater::buildDefaultWater() { static LLSD default_settings; if (!default_settings.size()) { default_settings = LLSettingsWater::defaults(); default_settings[SETTING_NAME] = std::string("_default_"); LLSettingsWater::validation_list_t validations = LLSettingsWater::validationList(); LLSD results = LLSettingsWater::settingValidation(default_settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Water setting validation failed!: " << results << LL_ENDL; return LLSettingsWater::ptr_t(); } } LLSettingsWater::ptr_t waterp = std::make_shared(default_settings); return waterp; } LLSettingsWater::ptr_t LLSettingsVOWater::buildClone() { LLSD settings = cloneSettings(); LLSettingsWater::validation_list_t validations = LLSettingsWater::validationList(); LLSD results = LLSettingsWater::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Water setting validation failed!: " << results << LL_ENDL; return LLSettingsWater::ptr_t(); } LLSettingsWater::ptr_t waterp = std::make_shared(settings); return waterp; } LLSD LLSettingsVOWater::convertToLegacy(const LLSettingsWater::ptr_t &pwater) { LLSD legacy(LLSD::emptyMap()); LLSD settings = pwater->getSettings(); legacy[SETTING_LEGACY_BLUR_MULTIPILER] = settings[SETTING_BLUR_MULTIPILER]; legacy[SETTING_LEGACY_FOG_COLOR] = ensure_array_4(settings[SETTING_FOG_COLOR], 1.0f); legacy[SETTING_LEGACY_FOG_DENSITY] = settings[SETTING_FOG_DENSITY]; legacy[SETTING_LEGACY_FOG_MOD] = settings[SETTING_FOG_MOD]; legacy[SETTING_LEGACY_FRESNEL_OFFSET] = settings[SETTING_FRESNEL_OFFSET]; legacy[SETTING_LEGACY_FRESNEL_SCALE] = settings[SETTING_FRESNEL_SCALE]; legacy[SETTING_LEGACY_NORMAL_MAP] = settings[SETTING_NORMAL_MAP]; legacy[SETTING_LEGACY_NORMAL_SCALE] = settings[SETTING_NORMAL_SCALE]; legacy[SETTING_LEGACY_SCALE_ABOVE] = settings[SETTING_SCALE_ABOVE]; legacy[SETTING_LEGACY_SCALE_BELOW] = settings[SETTING_SCALE_BELOW]; legacy[SETTING_LEGACY_WAVE1_DIR] = settings[SETTING_WAVE1_DIR]; legacy[SETTING_LEGACY_WAVE2_DIR] = settings[SETTING_WAVE2_DIR]; //_WARNS("LAPRAS") << "Legacy water: " << legacy << LL_ENDL; return legacy; } //------------------------------------------------------------------------- //------------------------------------------------------------------------- void LLSettingsVOWater::applySpecial(void *ptarget) { LLGLSLShader *shader = (LLGLSLShader *)ptarget; if (shader->mShaderGroup == LLGLSLShader::SG_WATER) { shader->uniform4fv(LLShaderMgr::WATER_WATERPLANE, 1, getWaterPlane().mV); shader->uniform1f(LLShaderMgr::WATER_FOGKS, getWaterFogKS()); F32 blend_factor = LLEnvironment::instance().getCurrentWater()->getBlendFactor(); shader->uniform1f(LLShaderMgr::BLEND_FACTOR, blend_factor); LLVector4 rotated_light_direction = LLEnvironment::instance().getRotatedLightNorm(); shader->uniform4fv(LLViewerShaderMgr::LIGHTNORM, 1, rotated_light_direction.mV); shader->uniform3fv(LLShaderMgr::WL_CAMPOSLOCAL, 1, LLViewerCamera::getInstance()->getOrigin().mV); shader->uniform1f(LLViewerShaderMgr::DISTANCE_MULTIPLIER, 0); } } void LLSettingsVOWater::updateSettings() { // LL_RECORD_BLOCK_TIME(FTM_UPDATE_WATERVALUES); // LL_INFOS("WINDLIGHT", "WATER", "EEP") << "Water Parameters are dirty. Reticulating Splines..." << LL_ENDL; // base class clears dirty flag so as to not trigger recursive update LLSettingsBase::updateSettings(); // only do this if we're dealing with shaders if (gPipeline.canUseVertexShaders()) { //transform water plane to eye space glh::vec3f norm(0.f, 0.f, 1.f); glh::vec3f p(0.f, 0.f, LLEnvironment::instance().getWaterHeight() + 0.1f); F32 modelView[16]; for (U32 i = 0; i < 16; i++) { modelView[i] = (F32)gGLModelView[i]; } glh::matrix4f mat(modelView); glh::matrix4f invtrans = mat.inverse().transpose(); glh::vec3f enorm; glh::vec3f ep; invtrans.mult_matrix_vec(norm, enorm); enorm.normalize(); mat.mult_matrix_vec(p, ep); mWaterPlane = LLVector4(enorm.v[0], enorm.v[1], enorm.v[2], -ep.dot(enorm)); LLVector4 light_direction = LLEnvironment::instance().getClampedLightNorm(); mWaterFogKS = 1.f / llmax(light_direction.mV[2], WATER_FOG_LIGHT_CLAMP); } LLDrawPoolWater* pwaterpool = (LLDrawPoolWater*)gPipeline.getPool(LLDrawPool::POOL_WATER); if (pwaterpool) { pwaterpool->setTransparentTextures(getTransparentTextureID(), getNextTransparentTextureID()); pwaterpool->setNormalMaps(getNormalMapID(), getNextNormalMapID()); } } LLSettingsWater::parammapping_t LLSettingsVOWater::getParameterMap() const { static parammapping_t param_map; if (param_map.empty()) { param_map[SETTING_FOG_COLOR] = LLShaderMgr::WATER_FOGCOLOR; param_map[SETTING_FOG_DENSITY] = LLShaderMgr::WATER_FOGDENSITY; } return param_map; } //========================================================================= LLSettingsVODay::LLSettingsVODay(const LLSD &data): LLSettingsDay(data) {} LLSettingsVODay::LLSettingsVODay(): LLSettingsDay() {} LLSettingsDay::ptr_t LLSettingsVODay::buildDay(LLSD settings) { LLSettingsDay::validation_list_t validations = LLSettingsDay::validationList(); LLSD results = LLSettingsDay::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Day setting validation failed!\n" << results << LL_ENDL; LLSettingsDay::ptr_t(); } LLSettingsDay::ptr_t pday = std::make_shared(settings); if (pday) pday->initialize(); return pday; } //------------------------------------------------------------------------- LLSettingsDay::ptr_t LLSettingsVODay::buildFromLegacyPreset(const std::string &name, const std::string &path, const LLSD &oldsettings) { LLSD newsettings(defaults()); std::set framenames; std::set notfound; std::string base_path(gDirUtilp->getDirName(path)); std::string water_path(base_path); std::string sky_path(base_path); gDirUtilp->append(water_path, "water"); gDirUtilp->append(sky_path, "skies"); newsettings[SETTING_NAME] = name; LLSD watertrack = LLSDArray( LLSDMap(SETTING_KEYKFRAME, LLSD::Real(0.0f)) (SETTING_KEYNAME, "water:Default")); LLSD skytrack = LLSD::emptyArray(); for (LLSD::array_const_iterator it = oldsettings.beginArray(); it != oldsettings.endArray(); ++it) { std::string framename = (*it)[1].asString(); LLSD entry = LLSDMap(SETTING_KEYKFRAME, (*it)[0].asReal()) (SETTING_KEYNAME, "sky:" + framename); framenames.insert(framename); skytrack.append(entry); } newsettings[SETTING_TRACKS] = LLSDArray(watertrack)(skytrack); LLSD frames(LLSD::emptyMap()); { LLSettingsWater::ptr_t pwater = LLSettingsVOWater::buildFromLegacyPresetFile("Default", water_path); if (pwater) frames["water:Default"] = pwater->getSettings(); } for (std::set::iterator itn = framenames.begin(); itn != framenames.end(); ++itn) { LLSettingsSky::ptr_t psky = LLSettingsVOSky::buildFromLegacyPresetFile((*itn), sky_path); if (psky) frames["sky:" + (*itn)] = psky->getSettings(); } newsettings[SETTING_FRAMES] = frames; LLSettingsDay::validation_list_t validations = LLSettingsDay::validationList(); LLSD results = LLSettingsDay::settingValidation(newsettings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Day setting validation failed!: " << results << LL_ENDL; return LLSettingsDay::ptr_t(); } LLSettingsDay::ptr_t dayp = std::make_shared(newsettings); #ifdef VERIFY_LEGACY_CONVERSION LLSD testsettings = LLSettingsVODay::convertToLegacy(dayp); if (!llsd_equals(oldsettings, testsettings)) { LL_WARNS("DAYCYCLE") << "Conversion to/from legacy does not match!\n" << "Old: " << oldsettings << "new: " << testsettings << LL_ENDL; } #endif dayp->initialize(); return dayp; } LLSettingsDay::ptr_t LLSettingsVODay::buildFromLegacyPresetFile(const std::string &name, const std::string &path) { std::string full_path(path); std::string full_name(legacy_name_to_filename(name)); full_name += ".xml"; gDirUtilp->append(full_path, full_name); LLSD legacy_data = read_legacy_preset_data(full_path); if (!legacy_data) { LL_WARNS("SETTINGS") << "Could not load legacy Windlight \"" << name << "\" from " << full_path << LL_ENDL; return ptr_t(); } return buildFromLegacyPreset(name, path, legacy_data); } LLSettingsDay::ptr_t LLSettingsVODay::buildFromLegacyMessage(const LLUUID ®ionId, LLSD daycycle, LLSD skydefs, LLSD waterdef) { LLSD frames(LLSD::emptyMap()); for (LLSD::map_iterator itm = skydefs.beginMap(); itm != skydefs.endMap(); ++itm) { std::string newname = "sky:" + (*itm).first; LLSD newsettings = LLSettingsSky::translateLegacySettings((*itm).second); newsettings[SETTING_NAME] = newname; frames[newname] = newsettings; LL_WARNS("SETTINGS") << "created region sky '" << newname << "'" << LL_ENDL; } LLSD watersettings = LLSettingsWater::translateLegacySettings(waterdef); std::string watername = "water:"+ watersettings[SETTING_NAME].asString(); watersettings[SETTING_NAME] = watername; frames[watername] = watersettings; LLSD watertrack = LLSDArray( LLSDMap(SETTING_KEYKFRAME, LLSD::Real(0.0f)) (SETTING_KEYNAME, watername)); LLSD skytrack(LLSD::emptyArray()); for (LLSD::array_const_iterator it = daycycle.beginArray(); it != daycycle.endArray(); ++it) { LLSD entry = LLSDMap(SETTING_KEYKFRAME, (*it)[0].asReal()) (SETTING_KEYNAME, "sky:" + (*it)[1].asString()); skytrack.append(entry); } LLSD newsettings = LLSDMap ( SETTING_NAME, "Region (legacy)" ) ( SETTING_TRACKS, LLSDArray(watertrack)(skytrack)) ( SETTING_FRAMES, frames ) ( SETTING_TYPE, "daycycle" ); LL_WARNS("LAPRAS") << "newsettings=" << newsettings << LL_ENDL; LLSettingsSky::validation_list_t validations = LLSettingsDay::validationList(); LLSD results = LLSettingsDay::settingValidation(newsettings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Day setting validation failed!:" << results << LL_ENDL; return LLSettingsDay::ptr_t(); } LLSettingsDay::ptr_t dayp = std::make_shared(newsettings); if (dayp) { dayp->initialize(); } return dayp; } LLSettingsDay::ptr_t LLSettingsVODay::buildDefaultDayCycle() { static LLSD default_settings; if (!default_settings.size()) { default_settings = LLSettingsDay::defaults(); default_settings[SETTING_NAME] = std::string("_default_"); LLSettingsDay::validation_list_t validations = LLSettingsDay::validationList(); LLSD results = LLSettingsDay::settingValidation(default_settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Day setting validation failed!\n" << results << LL_ENDL; LLSettingsDay::ptr_t(); } } LLSettingsDay::ptr_t dayp = std::make_shared(default_settings); dayp->initialize(); return dayp; } LLSettingsDay::ptr_t LLSettingsVODay::buildFromEnvironmentMessage(LLSD settings) { LLSettingsDay::validation_list_t validations = LLSettingsDay::validationList(); LLSD results = LLSettingsDay::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Day setting validation failed!\n" << results << LL_ENDL; LLSettingsDay::ptr_t(); } LLSettingsDay::ptr_t dayp = std::make_shared(settings); dayp->initialize(); return dayp; } LLSettingsDay::ptr_t LLSettingsVODay::buildClone() { LLSD settings = cloneSettings(); LLSettingsDay::validation_list_t validations = LLSettingsDay::validationList(); LLSD results = LLSettingsDay::settingValidation(settings, validations); if (!results["success"].asBoolean()) { LL_WARNS("SETTINGS") << "Day setting validation failed!\n" << results << LL_ENDL; LLSettingsDay::ptr_t(); } LLSettingsDay::ptr_t dayp = std::make_shared(settings); dayp->initialize(); return dayp; } LLSD LLSettingsVODay::convertToLegacy(const LLSettingsVODay::ptr_t &pday) { CycleTrack_t &trackwater = pday->getCycleTrack(TRACK_WATER); LLSettingsWater::ptr_t pwater; if (!trackwater.empty()) { pwater = std::static_pointer_cast((*trackwater.begin()).second); } if (!pwater) pwater = LLSettingsVOWater::buildDefaultWater(); LLSD llsdwater = LLSettingsVOWater::convertToLegacy(pwater); CycleTrack_t &tracksky = pday->getCycleTrack(1); // first sky track std::map skys; LLSD llsdcycle(LLSD::emptyArray()); for(CycleTrack_t::iterator it = tracksky.begin(); it != tracksky.end(); ++it) { size_t hash = (*it).second->getHash(); std::stringstream name; name << hash; skys[name.str()] = std::static_pointer_cast((*it).second); F32 frame = ((tracksky.size() == 1) && (it == tracksky.begin())) ? -1.0f : (*it).first; llsdcycle.append( LLSDArray(LLSD::Real(frame))(name.str()) ); } //_WARNS("LAPRAS") << "Cycle created with " << llsdcycle.size() << "entries: " << llsdcycle << LL_ENDL; LLSD llsdskylist(LLSD::emptyMap()); for (std::map::iterator its = skys.begin(); its != skys.end(); ++its) { LLSD llsdsky = LLSettingsVOSky::convertToLegacy((*its).second, false); llsdsky[SETTING_NAME] = (*its).first; llsdskylist[(*its).first] = llsdsky; } //_WARNS("LAPRAS") << "Sky map with " << llsdskylist.size() << " entries created: " << llsdskylist << LL_ENDL; return LLSDArray(LLSD::emptyMap())(llsdcycle)(llsdskylist)(llsdwater); } LLSettingsSkyPtr_t LLSettingsVODay::getDefaultSky() const { return LLSettingsVOSky::buildDefaultSky(); } LLSettingsWaterPtr_t LLSettingsVODay::getDefaultWater() const { return LLSettingsVOWater::buildDefaultWater(); } LLSettingsSkyPtr_t LLSettingsVODay::buildSky(LLSD settings) const { LLSettingsSky::ptr_t skyp = std::make_shared(settings); if (skyp->validate()) return skyp; return LLSettingsSky::ptr_t(); } LLSettingsWaterPtr_t LLSettingsVODay::buildWater(LLSD settings) const { LLSettingsWater::ptr_t waterp = std::make_shared(settings); if (waterp->validate()) return waterp; return LLSettingsWater::ptr_t(); } //========================================================================= namespace { LLSD ensure_array_4(LLSD in, F32 fill) { if (in.size() >= 4) return in; LLSD out(LLSD::emptyArray()); for (S32 idx = 0; idx < in.size(); ++idx) { out.append(in[idx]); } while (out.size() < 4) { out.append(LLSD::Real(fill)); } return out; } //--------------------------------------------------------------------- LLSD read_legacy_preset_data(const std::string& path) { llifstream xml_file; // std::string name(gDirUtilp->getBaseFileName(LLURI::unescape(path), /*strip_exten = */ true)); xml_file.open(path.c_str()); if (!xml_file) return LLSD(); LLSD params_data; LLPointer parser = new LLSDXMLParser(); parser->parse(xml_file, params_data, LLSDSerialize::SIZE_UNLIMITED); xml_file.close(); return params_data; } }