/** * @file llsettingswater.h * @author optional * @brief A base class for asset based settings groups. * * $LicenseInfo:2011&license=viewerlgpl$ * 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 "llsettingswater.h" #include #include "lltrace.h" #include "llfasttimer.h" #include "v3colorutil.h" #include "indra_constants.h" #include const std::string LLSettingsWater::SETTING_BLUR_MULTIPLIER("blur_multiplier"); const std::string LLSettingsWater::SETTING_FOG_COLOR("water_fog_color"); const std::string LLSettingsWater::SETTING_FOG_DENSITY("water_fog_density"); const std::string LLSettingsWater::SETTING_FOG_MOD("underwater_fog_mod"); const std::string LLSettingsWater::SETTING_FRESNEL_OFFSET("fresnel_offset"); const std::string LLSettingsWater::SETTING_FRESNEL_SCALE("fresnel_scale"); const std::string LLSettingsWater::SETTING_TRANSPARENT_TEXTURE("transparent_texture"); const std::string LLSettingsWater::SETTING_NORMAL_MAP("normal_map"); const std::string LLSettingsWater::SETTING_NORMAL_SCALE("normal_scale"); const std::string LLSettingsWater::SETTING_SCALE_ABOVE("scale_above"); const std::string LLSettingsWater::SETTING_SCALE_BELOW("scale_below"); const std::string LLSettingsWater::SETTING_WAVE1_DIR("wave1_direction"); const std::string LLSettingsWater::SETTING_WAVE2_DIR("wave2_direction"); const std::string LLSettingsWater::SETTING_LEGACY_BLUR_MULTIPLIER("blurMultiplier"); const std::string LLSettingsWater::SETTING_LEGACY_FOG_COLOR("waterFogColor"); const std::string LLSettingsWater::SETTING_LEGACY_FOG_DENSITY("waterFogDensity"); const std::string LLSettingsWater::SETTING_LEGACY_FOG_MOD("underWaterFogMod"); const std::string LLSettingsWater::SETTING_LEGACY_FRESNEL_OFFSET("fresnelOffset"); const std::string LLSettingsWater::SETTING_LEGACY_FRESNEL_SCALE("fresnelScale"); const std::string LLSettingsWater::SETTING_LEGACY_NORMAL_MAP("normalMap"); const std::string LLSettingsWater::SETTING_LEGACY_NORMAL_SCALE("normScale"); const std::string LLSettingsWater::SETTING_LEGACY_SCALE_ABOVE("scaleAbove"); const std::string LLSettingsWater::SETTING_LEGACY_SCALE_BELOW("scaleBelow"); const std::string LLSettingsWater::SETTING_LEGACY_WAVE1_DIR("wave1Dir"); const std::string LLSettingsWater::SETTING_LEGACY_WAVE2_DIR("wave2Dir"); const LLUUID LLSettingsWater::DEFAULT_ASSET_ID("59d1a851-47e7-0e5f-1ed7-6b715154f41a"); static const LLUUID DEFAULT_TRANSPARENT_WATER_TEXTURE("2bfd3884-7e27-69b9-ba3a-3e673f680004"); static const LLUUID DEFAULT_OPAQUE_WATER_TEXTURE("43c32285-d658-1793-c123-bf86315de055"); //========================================================================= LLSettingsWater::LLSettingsWater(const LLSD &data) : LLSettingsBase(data), mNextNormalMapID(), mNextTransparentTextureID() { loadValuesFromLLSD(); } LLSettingsWater::LLSettingsWater() : LLSettingsBase(), mNextNormalMapID(), mNextTransparentTextureID() { replaceSettings(defaults()); } //========================================================================= LLSD LLSettingsWater::defaults(const LLSettingsBase::TrackPosition& position) { static LLSD dfltsetting; if (dfltsetting.size() == 0) { // give the normal scale offset some variability over track time... F32 normal_scale_offset = (position * 0.5f) - 0.25f; // Magic constants copied form defaults.xml dfltsetting[SETTING_BLUR_MULTIPLIER] = LLSD::Real(0.04000f); dfltsetting[SETTING_FOG_COLOR] = LLColor3(0.0156f, 0.1490f, 0.2509f).getValue(); dfltsetting[SETTING_FOG_DENSITY] = LLSD::Real(2.0f); dfltsetting[SETTING_FOG_MOD] = LLSD::Real(0.25f); dfltsetting[SETTING_FRESNEL_OFFSET] = LLSD::Real(0.5f); dfltsetting[SETTING_FRESNEL_SCALE] = LLSD::Real(0.3999); dfltsetting[SETTING_TRANSPARENT_TEXTURE] = GetDefaultTransparentTextureAssetId(); dfltsetting[SETTING_NORMAL_MAP] = GetDefaultWaterNormalAssetId(); dfltsetting[SETTING_NORMAL_SCALE] = LLVector3(2.0f + normal_scale_offset, 2.0f + normal_scale_offset, 2.0f + normal_scale_offset).getValue(); dfltsetting[SETTING_SCALE_ABOVE] = LLSD::Real(0.0299f); dfltsetting[SETTING_SCALE_BELOW] = LLSD::Real(0.2000f); dfltsetting[SETTING_WAVE1_DIR] = LLVector2(1.04999f, -0.42000f).getValue(); dfltsetting[SETTING_WAVE2_DIR] = LLVector2(1.10999f, -1.16000f).getValue(); dfltsetting[SETTING_TYPE] = "water"; } return dfltsetting; } void LLSettingsWater::loadValuesFromLLSD() { LL_PROFILE_ZONE_SCOPED_CATEGORY_ENVIRONMENT; LLSettingsBase::loadValuesFromLLSD(); LLSD& settings = getSettings(); mBlurMultiplier = (F32)settings[SETTING_BLUR_MULTIPLIER].asReal(); mWaterFogColor = LLColor3(settings[SETTING_FOG_COLOR]); mWaterFogDensity = (F32)settings[SETTING_FOG_DENSITY].asReal(); mFogMod = (F32)settings[SETTING_FOG_MOD].asReal(); mFresnelOffset = (F32)settings[SETTING_FRESNEL_OFFSET].asReal(); mFresnelScale = (F32)settings[SETTING_FRESNEL_SCALE].asReal(); mNormalScale = LLVector3(settings[SETTING_NORMAL_SCALE]); mScaleAbove = (F32)settings[SETTING_SCALE_ABOVE].asReal(); mScaleBelow = (F32)settings[SETTING_SCALE_BELOW].asReal(); mWave1Dir = LLVector2(settings[SETTING_WAVE1_DIR]); mWave2Dir = LLVector2(settings[SETTING_WAVE2_DIR]); mNormalMapID = getNormalMapID(); mTransparentTextureID = getTransparentTextureID(); } void LLSettingsWater::saveValuesToLLSD() { LL_PROFILE_ZONE_SCOPED_CATEGORY_ENVIRONMENT; LLSettingsBase::saveValuesToLLSD(); LLSD & settings = getSettings(); settings[SETTING_BLUR_MULTIPLIER] = LLSD::Real(mBlurMultiplier); settings[SETTING_FOG_COLOR] = mWaterFogColor.getValue(); settings[SETTING_FOG_DENSITY] = LLSD::Real(mWaterFogDensity); settings[SETTING_FOG_MOD] = LLSD::Real(mFogMod); settings[SETTING_FRESNEL_OFFSET] = LLSD::Real(mFresnelOffset); settings[SETTING_FRESNEL_SCALE] = LLSD::Real(mFresnelScale); settings[SETTING_NORMAL_SCALE] = mNormalScale.getValue(); settings[SETTING_SCALE_ABOVE] = LLSD::Real(mScaleAbove); settings[SETTING_SCALE_BELOW] = LLSD::Real(mScaleBelow); settings[SETTING_WAVE1_DIR] = mWave1Dir.getValue(); settings[SETTING_WAVE2_DIR] = mWave2Dir.getValue(); settings[SETTING_NORMAL_MAP] = mNormalMapID; settings[SETTING_TRANSPARENT_TEXTURE] = mTransparentTextureID; } LLSD LLSettingsWater::translateLegacySettings(LLSD legacy) { bool converted_something(false); LLSD newsettings(defaults()); if (legacy.has(SETTING_LEGACY_BLUR_MULTIPLIER)) { newsettings[SETTING_BLUR_MULTIPLIER] = LLSD::Real(legacy[SETTING_LEGACY_BLUR_MULTIPLIER].asReal()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_FOG_COLOR)) { newsettings[SETTING_FOG_COLOR] = LLColor3(legacy[SETTING_LEGACY_FOG_COLOR]).getValue(); converted_something |= true; } if (legacy.has(SETTING_LEGACY_FOG_DENSITY)) { newsettings[SETTING_FOG_DENSITY] = LLSD::Real(legacy[SETTING_LEGACY_FOG_DENSITY]); converted_something |= true; } if (legacy.has(SETTING_LEGACY_FOG_MOD)) { newsettings[SETTING_FOG_MOD] = LLSD::Real(legacy[SETTING_LEGACY_FOG_MOD].asReal()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_FRESNEL_OFFSET)) { newsettings[SETTING_FRESNEL_OFFSET] = LLSD::Real(legacy[SETTING_LEGACY_FRESNEL_OFFSET].asReal()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_FRESNEL_SCALE)) { newsettings[SETTING_FRESNEL_SCALE] = LLSD::Real(legacy[SETTING_LEGACY_FRESNEL_SCALE].asReal()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_NORMAL_MAP)) { newsettings[SETTING_NORMAL_MAP] = LLSD::UUID(legacy[SETTING_LEGACY_NORMAL_MAP].asUUID()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_NORMAL_SCALE)) { newsettings[SETTING_NORMAL_SCALE] = LLVector3(legacy[SETTING_LEGACY_NORMAL_SCALE]).getValue(); converted_something |= true; } if (legacy.has(SETTING_LEGACY_SCALE_ABOVE)) { newsettings[SETTING_SCALE_ABOVE] = LLSD::Real(legacy[SETTING_LEGACY_SCALE_ABOVE].asReal()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_SCALE_BELOW)) { newsettings[SETTING_SCALE_BELOW] = LLSD::Real(legacy[SETTING_LEGACY_SCALE_BELOW].asReal()); converted_something |= true; } if (legacy.has(SETTING_LEGACY_WAVE1_DIR)) { newsettings[SETTING_WAVE1_DIR] = LLVector2(legacy[SETTING_LEGACY_WAVE1_DIR]).getValue(); converted_something |= true; } if (legacy.has(SETTING_LEGACY_WAVE2_DIR)) { newsettings[SETTING_WAVE2_DIR] = LLVector2(legacy[SETTING_LEGACY_WAVE2_DIR]).getValue(); converted_something |= true; } if (!converted_something) return LLSD(); return newsettings; } void LLSettingsWater::blend(LLSettingsBase::ptr_t &end, F64 blendf) { LL_PROFILE_ZONE_SCOPED_CATEGORY_ENVIRONMENT; LLSettingsWater::ptr_t other = PTR_NAMESPACE::static_pointer_cast(end); if (other) { mSettingFlags |= other->mSettingFlags; mBlurMultiplier = lerp(mBlurMultiplier, other->mBlurMultiplier, (F32)blendf); lerpColor(mWaterFogColor, other->mWaterFogColor, (F32)blendf); mWaterFogDensity = lerp(mWaterFogDensity, other->mWaterFogDensity, (F32)blendf); mFogMod = lerp(mFogMod, other->mFogMod, (F32)blendf); mFresnelOffset = lerp(mFresnelOffset, other->mFresnelOffset, (F32)blendf); mFresnelScale = lerp(mFresnelScale, other->mFresnelScale, (F32)blendf); lerpVector3(mNormalScale, other->mNormalScale, (F32)blendf); mScaleAbove = lerp(mScaleAbove, other->mScaleAbove, (F32)blendf); mScaleBelow = lerp(mScaleBelow, other->mScaleBelow, (F32)blendf); lerpVector2(mWave1Dir, other->mWave1Dir, (F32)blendf); lerpVector2(mWave2Dir, other->mWave2Dir, (F32)blendf); setDirtyFlag(true); setReplaced(); setLLSDDirty(); mNextNormalMapID = other->getNormalMapID(); mNextTransparentTextureID = other->getTransparentTextureID(); } else { LL_WARNS("SETTINGS") << "Could not cast end settings to water. No blend performed." << LL_ENDL; } setBlendFactor(blendf); } void LLSettingsWater::replaceSettings(LLSD settings) { LLSettingsBase::replaceSettings(settings); mNextNormalMapID.setNull(); mNextTransparentTextureID.setNull(); } void LLSettingsWater::replaceSettings(const LLSettingsBase::ptr_t& other_water) { LLSettingsBase::replaceSettings(other_water); llassert(getSettingsType() == other_water->getSettingsType()); LLSettingsWater::ptr_t other = PTR_NAMESPACE::dynamic_pointer_cast(other_water); mBlurMultiplier = other->mBlurMultiplier; mWaterFogColor = other->mWaterFogColor; mWaterFogDensity = other->mWaterFogDensity; mFogMod = other->mFogMod; mFresnelOffset = other->mFresnelOffset; mFresnelScale = other->mFresnelScale; mNormalScale = other->mNormalScale; mScaleAbove = other->mScaleAbove; mScaleBelow = other->mScaleBelow; mWave1Dir = other->mWave1Dir; mWave2Dir = other->mWave2Dir; mNormalMapID = other->mNormalMapID; mTransparentTextureID = other->mTransparentTextureID; mNextNormalMapID.setNull(); mNextTransparentTextureID.setNull(); } void LLSettingsWater::replaceWithWater(const LLSettingsWater::ptr_t& other) { replaceWith(other); mNextNormalMapID = other->mNextNormalMapID; mNextTransparentTextureID = other->mNextTransparentTextureID; } LLSettingsWater::validation_list_t LLSettingsWater::getValidationList() const { return LLSettingsWater::validationList(); } LLSettingsWater::validation_list_t LLSettingsWater::validationList() { static validation_list_t validation; if (validation.empty()) { using boost::placeholders::_1, boost::placeholders::_2; validation.push_back(Validator(SETTING_BLUR_MULTIPLIER, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(-0.5f, 0.5f)))); validation.push_back(Validator(SETTING_FOG_COLOR, true, LLSD::TypeArray, boost::bind(&Validator::verifyVectorMinMax, _1, _2, llsd::array(0.0f, 0.0f, 0.0f, 1.0f), llsd::array(1.0f, 1.0f, 1.0f, 1.0f)))); validation.push_back(Validator(SETTING_FOG_DENSITY, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(0.001f, 100.0f)))); validation.push_back(Validator(SETTING_FOG_MOD, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(0.0f, 20.0f)))); validation.push_back(Validator(SETTING_FRESNEL_OFFSET, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(0.0f, 1.0f)))); validation.push_back(Validator(SETTING_FRESNEL_SCALE, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(0.0f, 1.0f)))); validation.push_back(Validator(SETTING_NORMAL_MAP, true, LLSD::TypeUUID)); validation.push_back(Validator(SETTING_NORMAL_SCALE, true, LLSD::TypeArray, boost::bind(&Validator::verifyVectorMinMax, _1, _2, llsd::array(0.0f, 0.0f, 0.0f), llsd::array(10.0f, 10.0f, 10.0f)))); validation.push_back(Validator(SETTING_SCALE_ABOVE, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(0.0f, 3.0f)))); validation.push_back(Validator(SETTING_SCALE_BELOW, true, LLSD::TypeReal, boost::bind(&Validator::verifyFloatRange, _1, _2, llsd::array(0.0f, 3.0f)))); validation.push_back(Validator(SETTING_WAVE1_DIR, true, LLSD::TypeArray, boost::bind(&Validator::verifyVectorMinMax, _1, _2, llsd::array(-20.0f, -20.0f), llsd::array(20.0f, 20.0f)))); validation.push_back(Validator(SETTING_WAVE2_DIR, true, LLSD::TypeArray, boost::bind(&Validator::verifyVectorMinMax, _1, _2, llsd::array(-20.0f, -20.0f), llsd::array(20.0f, 20.0f)))); } return validation; } LLUUID LLSettingsWater::GetDefaultAssetId() { return DEFAULT_ASSET_ID; } LLUUID LLSettingsWater::GetDefaultWaterNormalAssetId() { return DEFAULT_WATER_NORMAL; } LLUUID LLSettingsWater::GetDefaultTransparentTextureAssetId() { return DEFAULT_TRANSPARENT_WATER_TEXTURE; } LLUUID LLSettingsWater::GetDefaultOpaqueTextureAssetId() { return DEFAULT_OPAQUE_WATER_TEXTURE; } F32 LLSettingsWater::getModifiedWaterFogDensity(bool underwater) const { F32 fog_density = getWaterFogDensity(); F32 underwater_fog_mod = getFogMod(); if (underwater && underwater_fog_mod > 0.0f) { underwater_fog_mod = llclamp(underwater_fog_mod, 0.0f, 10.0f); // BUG-233797/BUG-233798 -ve underwater fog density can cause (unrecoverable) blackout. // raising a negative number to a non-integral power results in a non-real result (which is NaN for our purposes) // Two methods were tested, number 2 is being used: // 1) Force the fog_mod to be integral. The effect is unlikely to be nice, but it is better than blackness. // In this method a few of the combinations are "usable" but the water colour is effectively inverted (blue becomes yellow) // this seems to be unlikely to be a desirable use case for the majority. // 2) Force density to be an arbitrary non-negative (i.e. 1) when underwater and modifier is not an integer (1 was aribtrarily chosen as it gives at least some notion of fog in the transition) // This is more restrictive, effectively forcing a density under certain conditions, but allowing the range of #1 and avoiding blackness in other cases // at the cost of overriding the fog density. if(fog_density < 0.0f && underwater_fog_mod != (F32)llround(underwater_fog_mod) ) { fog_density = 1.0f; } fog_density = pow(fog_density, underwater_fog_mod); } return fog_density; }