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|
/**
* @file llsettingssky.cpp
* @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 "llsettingssky.h"
#include "indra_constants.h"
#include <algorithm>
#include "lltrace.h"
#include "llfasttimer.h"
#include "v3colorutil.h"
//=========================================================================
namespace
{
const LLVector3 DUE_EAST(0.0f, 0.0f, 1.0);
const LLVector3 VECT_ZENITH(0.f, 1.f, 0.f);
const LLVector3 VECT_NORTHSOUTH(1.f, 0.f, 0.f);
LLTrace::BlockTimerStatHandle FTM_BLEND_SKYVALUES("Blending Sky Environment");
LLTrace::BlockTimerStatHandle FTM_UPDATE_SKYVALUES("Update Sky Environment");
LLQuaternion body_position_from_angles(F32 azimuth, F32 altitude);
void angles_from_rotation(LLQuaternion quat, F32 &azimuth, F32 &altitude);
}
const F32 LLSettingsSky::DOME_OFFSET(0.96f);
const F32 LLSettingsSky::DOME_RADIUS(15000.f);
const F32 LLSettingsSky::NIGHTTIME_ELEVATION(-8.0f); // degrees
const F32 LLSettingsSky::NIGHTTIME_ELEVATION_COS((F32)sin(NIGHTTIME_ELEVATION*DEG_TO_RAD));
//=========================================================================
const std::string LLSettingsSky::SETTING_AMBIENT("ambient");
const std::string LLSettingsSky::SETTING_BLUE_DENSITY("blue_density");
const std::string LLSettingsSky::SETTING_BLUE_HORIZON("blue_horizon");
const std::string LLSettingsSky::SETTING_DENSITY_MULTIPLIER("density_multiplier");
const std::string LLSettingsSky::SETTING_DISTANCE_MULTIPLIER("distance_multiplier");
const std::string LLSettingsSky::SETTING_HAZE_DENSITY("haze_density");
const std::string LLSettingsSky::SETTING_HAZE_HORIZON("haze_horizon");
const std::string LLSettingsSky::SETTING_BLOOM_TEXTUREID("bloom_id");
const std::string LLSettingsSky::SETTING_CLOUD_COLOR("cloud_color");
const std::string LLSettingsSky::SETTING_CLOUD_POS_DENSITY1("cloud_pos_density1");
const std::string LLSettingsSky::SETTING_CLOUD_POS_DENSITY2("cloud_pos_density2");
const std::string LLSettingsSky::SETTING_CLOUD_SCALE("cloud_scale");
const std::string LLSettingsSky::SETTING_CLOUD_SCROLL_RATE("cloud_scroll_rate");
const std::string LLSettingsSky::SETTING_CLOUD_SHADOW("cloud_shadow");
const std::string LLSettingsSky::SETTING_CLOUD_TEXTUREID("cloud_id");
const std::string LLSettingsSky::SETTING_DOME_OFFSET("dome_offset");
const std::string LLSettingsSky::SETTING_DOME_RADIUS("dome_radius");
const std::string LLSettingsSky::SETTING_GAMMA("gamma");
const std::string LLSettingsSky::SETTING_GLOW("glow");
const std::string LLSettingsSky::SETTING_LIGHT_NORMAL("lightnorm");
const std::string LLSettingsSky::SETTING_MAX_Y("max_y");
const std::string LLSettingsSky::SETTING_MOON_ROTATION("moon_rotation");
const std::string LLSettingsSky::SETTING_MOON_TEXTUREID("moon_id");
const std::string LLSettingsSky::SETTING_STAR_BRIGHTNESS("star_brightness");
const std::string LLSettingsSky::SETTING_SUNLIGHT_COLOR("sunlight_color");
const std::string LLSettingsSky::SETTING_SUN_ROTATION("sun_rotation");
const std::string LLSettingsSky::SETTING_SUN_TEXTUREID("sun_id");
const std::string LLSettingsSky::SETTING_LEGACY_EAST_ANGLE("east_angle");
const std::string LLSettingsSky::SETTING_LEGACY_ENABLE_CLOUD_SCROLL("enable_cloud_scroll");
const std::string LLSettingsSky::SETTING_LEGACY_SUN_ANGLE("sun_angle");
// these are new settings for the advanced atmospherics model
const std::string LLSettingsSky::SETTING_PLANET_RADIUS("planet_radius");
const std::string LLSettingsSky::SETTING_SKY_BOTTOM_RADIUS("sky_bottom_radius");
const std::string LLSettingsSky::SETTING_SKY_TOP_RADIUS("sky_top_radius");
const std::string LLSettingsSky::SETTING_SUN_ARC_RADIANS("sun_arc_radians");
const std::string LLSettingsSky::SETTING_RAYLEIGH_CONFIG("rayleigh_config");
const std::string LLSettingsSky::SETTING_MIE_CONFIG("mie_config");
const std::string LLSettingsSky::SETTING_MIE_ANISOTROPY_FACTOR("anisotropy");
const std::string LLSettingsSky::SETTING_ABSORPTION_CONFIG("absorption_config");
const std::string LLSettingsSky::KEY_DENSITY_PROFILE("density");
const std::string LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH("width");
const std::string LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM("exp_term");
const std::string LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR("exp_scale");
const std::string LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM("linear_term");
const std::string LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM("constant_term");
const std::string LLSettingsSky::SETTING_LEGACY_HAZE("legacy_haze");
namespace
{
LLSettingsSky::validation_list_t legacyHazeValidationList()
{
static LLSettingsBase::validation_list_t legacyHazeValidation;
if (legacyHazeValidation.empty())
{
legacyHazeValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_BLUE_DENSITY, true, LLSD::TypeArray,
boost::bind(&LLSettingsBase::Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(2.0f)(2.0f)(2.0f)("*")))));
legacyHazeValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_BLUE_HORIZON, true, LLSD::TypeArray,
boost::bind(&LLSettingsBase::Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(2.0f)(2.0f)(2.0f)("*")))));
legacyHazeValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_HAZE_DENSITY, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(4.0f)))));
legacyHazeValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_HAZE_HORIZON, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
legacyHazeValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_MULTIPLIER, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(0.0009f)))));
legacyHazeValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DISTANCE_MULTIPLIER, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(100.0f)))));
}
return legacyHazeValidation;
}
LLSettingsSky::validation_list_t rayleighValidationList()
{
static LLSettingsBase::validation_list_t rayleighValidation;
if (rayleighValidation.empty())
{
rayleighValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(32768.0f)))));
rayleighValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
rayleighValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(-1.0f)(1.0f)))));
rayleighValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
rayleighValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
}
return rayleighValidation;
}
LLSettingsSky::validation_list_t absorptionValidationList()
{
static LLSettingsBase::validation_list_t absorptionValidation;
if (absorptionValidation.empty())
{
absorptionValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(32768.0f)))));
absorptionValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
absorptionValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(-1.0f)(1.0f)))));
absorptionValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
absorptionValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
}
return absorptionValidation;
}
LLSettingsSky::validation_list_t mieValidationList()
{
static LLSettingsBase::validation_list_t mieValidation;
if (mieValidation.empty())
{
mieValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(32768.0f)))));
mieValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
mieValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(-1.0f)(1.0f)))));
mieValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
mieValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
mieValidation.push_back(LLSettingsBase::Validator(LLSettingsSky::SETTING_MIE_ANISOTROPY_FACTOR, true, LLSD::TypeReal,
boost::bind(&LLSettingsBase::Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
}
return mieValidation;
}
bool validateLegacyHaze(LLSD &value)
{
LLSettingsSky::validation_list_t legacyHazeValidations = legacyHazeValidationList();
llassert(value.type() == LLSD::Type::TypeMap);
LLSD result = LLSettingsBase::settingValidation(value, legacyHazeValidations);
if (result["errors"].size() > 0)
{
LL_WARNS("SETTINGS") << "Legacy Haze Config Validation errors: " << result["errors"] << LL_ENDL;
return false;
}
if (result["warnings"].size() > 0)
{
LL_WARNS("SETTINGS") << "Legacy Haze Config Validation warnings: " << result["errors"] << LL_ENDL;
return false;
}
return true;
}
bool validateRayleighLayers(LLSD &value)
{
LLSettingsSky::validation_list_t rayleighValidations = rayleighValidationList();
if (value.isArray())
{
bool allGood = true;
for (LLSD::array_iterator itf = value.beginArray(); itf != value.endArray(); ++itf)
{
LLSD& layerConfig = (*itf);
if (layerConfig.type() == LLSD::Type::TypeMap)
{
if (!validateRayleighLayers(layerConfig))
{
allGood = false;
}
}
else if (layerConfig.type() == LLSD::Type::TypeArray)
{
return validateRayleighLayers(layerConfig);
}
else
{
return LLSettingsBase::settingValidation(value, rayleighValidations);
}
}
return allGood;
}
llassert(value.type() == LLSD::Type::TypeMap);
LLSD result = LLSettingsBase::settingValidation(value, rayleighValidations);
if (result["errors"].size() > 0)
{
LL_WARNS("SETTINGS") << "Rayleigh Config Validation errors: " << result["errors"] << LL_ENDL;
return false;
}
if (result["warnings"].size() > 0)
{
LL_WARNS("SETTINGS") << "Rayleigh Config Validation warnings: " << result["errors"] << LL_ENDL;
return false;
}
return true;
}
bool validateAbsorptionLayers(LLSD &value)
{
LLSettingsBase::validation_list_t absorptionValidations = absorptionValidationList();
if (value.isArray())
{
bool allGood = true;
for (LLSD::array_iterator itf = value.beginArray(); itf != value.endArray(); ++itf)
{
LLSD& layerConfig = (*itf);
if (layerConfig.type() == LLSD::Type::TypeMap)
{
if (!validateAbsorptionLayers(layerConfig))
{
allGood = false;
}
}
else if (layerConfig.type() == LLSD::Type::TypeArray)
{
return validateAbsorptionLayers(layerConfig);
}
else
{
return LLSettingsBase::settingValidation(value, absorptionValidations);
}
}
return allGood;
}
llassert(value.type() == LLSD::Type::TypeMap);
LLSD result = LLSettingsBase::settingValidation(value, absorptionValidations);
if (result["errors"].size() > 0)
{
LL_WARNS("SETTINGS") << "Absorption Config Validation errors: " << result["errors"] << LL_ENDL;
return false;
}
if (result["warnings"].size() > 0)
{
LL_WARNS("SETTINGS") << "Absorption Config Validation warnings: " << result["errors"] << LL_ENDL;
return false;
}
return true;
}
bool validateMieLayers(LLSD &value)
{
LLSettingsBase::validation_list_t mieValidations = mieValidationList();
if (value.isArray())
{
bool allGood = true;
for (LLSD::array_iterator itf = value.beginArray(); itf != value.endArray(); ++itf)
{
LLSD& layerConfig = (*itf);
if (layerConfig.type() == LLSD::Type::TypeMap)
{
if (!validateMieLayers(layerConfig))
{
allGood = false;
}
}
else if (layerConfig.type() == LLSD::Type::TypeArray)
{
return validateMieLayers(layerConfig);
}
else
{
return LLSettingsBase::settingValidation(value, mieValidations);
}
}
return allGood;
}
LLSD result = LLSettingsBase::settingValidation(value, mieValidations);
if (result["errors"].size() > 0)
{
LL_WARNS("SETTINGS") << "Mie Config Validation errors: " << result["errors"] << LL_ENDL;
return false;
}
if (result["warnings"].size() > 0)
{
LL_WARNS("SETTINGS") << "Mie Config Validation warnings: " << result["errors"] << LL_ENDL;
return false;
}
return true;
}
}
//=========================================================================
LLSettingsSky::LLSettingsSky(const LLSD &data) :
LLSettingsBase(data)
{
}
LLSettingsSky::LLSettingsSky():
LLSettingsBase()
{
}
void LLSettingsSky::blend(const LLSettingsBase::ptr_t &end, F64 blendf)
{
LLSettingsSky::ptr_t other = std::static_pointer_cast<LLSettingsSky>(end);
LLSD blenddata = interpolateSDMap(mSettings, other->mSettings, blendf);
replaceSettings(blenddata);
}
void LLSettingsSky::setMoonRotation(F32 azimuth, F32 altitude)
{
setValue(SETTING_MOON_ROTATION, ::body_position_from_angles(azimuth, altitude));
}
LLSettingsSky::azimalt_t LLSettingsSky::getMoonRotationAzAl() const
{
azimalt_t res;
::angles_from_rotation(getMoonRotation(), res.first, res.second);
return res;
}
void LLSettingsSky::setSunRotation(F32 azimuth, F32 altitude)
{
setValue(SETTING_SUN_ROTATION, ::body_position_from_angles(azimuth, altitude));
}
LLSettingsSky::azimalt_t LLSettingsSky::getSunRotationAzAl() const
{
azimalt_t res;
::angles_from_rotation(getSunRotation(), res.first, res.second);
return res;
}
LLSettingsSky::stringset_t LLSettingsSky::getSlerpKeys() const
{
static stringset_t slepSet;
if (slepSet.empty())
{
slepSet.insert(SETTING_SUN_ROTATION);
slepSet.insert(SETTING_MOON_ROTATION);
}
return slepSet;
}
LLSettingsSky::validation_list_t LLSettingsSky::getValidationList() const
{
return LLSettingsSky::validationList();
}
LLSettingsSky::validation_list_t LLSettingsSky::validationList()
{
static validation_list_t validation;
if (validation.empty())
{ // Note the use of LLSD(LLSDArray()()()...) This is due to an issue with the
// copy constructor for LLSDArray. Directly binding the LLSDArray as
// a parameter without first wrapping it in a pure LLSD object will result
// in deeply nested arrays like this [[[[[[[[[[v1,v2,v3]]]]]]]]]]
validation.push_back(Validator(SETTING_BLUE_DENSITY, false, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(2.0f)(2.0f)(2.0f)("*")))));
validation.push_back(Validator(SETTING_BLUE_HORIZON, false, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(2.0f)(2.0f)(2.0f)("*")))));
validation.push_back(Validator(SETTING_HAZE_DENSITY, false, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(4.0f)))));
validation.push_back(Validator(SETTING_HAZE_HORIZON, false, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
validation.push_back(Validator(SETTING_AMBIENT, false, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(3.0f)(3.0f)(3.0f)("*")))));
validation.push_back(Validator(SETTING_DENSITY_MULTIPLIER, false, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(0.0009f)))));
validation.push_back(Validator(SETTING_DISTANCE_MULTIPLIER, false, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(100.0f)))));
validation.push_back(Validator(SETTING_BLOOM_TEXTUREID, true, LLSD::TypeUUID));
validation.push_back(Validator(SETTING_CLOUD_COLOR, true, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(1.0f)(1.0f)(1.0f)("*")))));
validation.push_back(Validator(SETTING_CLOUD_POS_DENSITY1, true, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(1.68841f)(1.0f)(1.0f)("*")))));
validation.push_back(Validator(SETTING_CLOUD_POS_DENSITY2, true, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(1.68841f)(1.0f)(1.0f)("*")))));
validation.push_back(Validator(SETTING_CLOUD_SCALE, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.001f)(0.999f)))));
validation.push_back(Validator(SETTING_CLOUD_SCROLL_RATE, true, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)),
LLSD(LLSDArray(20.0f)(20.0f)))));
validation.push_back(Validator(SETTING_CLOUD_SHADOW, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
validation.push_back(Validator(SETTING_CLOUD_TEXTUREID, false, LLSD::TypeUUID));
validation.push_back(Validator(SETTING_DOME_OFFSET, false, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(1.0f)))));
validation.push_back(Validator(SETTING_DOME_RADIUS, false, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(1000.0f)(2000.0f)))));
validation.push_back(Validator(SETTING_GAMMA, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(10.0f)))));
validation.push_back(Validator(SETTING_GLOW, true, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.2f)("*")(-2.5f)("*")),
LLSD(LLSDArray(20.0f)("*")(0.0f)("*")))));
validation.push_back(Validator(SETTING_LIGHT_NORMAL, false, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorNormalized, _1, 3)));
validation.push_back(Validator(SETTING_MAX_Y, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(4000.0f)))));
validation.push_back(Validator(SETTING_MOON_ROTATION, true, LLSD::TypeArray, &Validator::verifyQuaternionNormal));
validation.push_back(Validator(SETTING_MOON_TEXTUREID, false, LLSD::TypeUUID));
validation.push_back(Validator(SETTING_STAR_BRIGHTNESS, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(2.0f)))));
validation.push_back(Validator(SETTING_SUNLIGHT_COLOR, true, LLSD::TypeArray,
boost::bind(&Validator::verifyVectorMinMax, _1,
LLSD(LLSDArray(0.0f)(0.0f)(0.0f)("*")),
LLSD(LLSDArray(3.0f)(3.0f)(3.0f)("*")))));
validation.push_back(Validator(SETTING_SUN_ROTATION, true, LLSD::TypeArray, &Validator::verifyQuaternionNormal));
validation.push_back(Validator(SETTING_SUN_TEXTUREID, false, LLSD::TypeUUID));
validation.push_back(Validator(SETTING_PLANET_RADIUS, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(1000.0f)(32768.0f)))));
validation.push_back(Validator(SETTING_SKY_BOTTOM_RADIUS, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(1000.0f)(32768.0f)))));
validation.push_back(Validator(SETTING_SKY_TOP_RADIUS, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(1000.0f)(32768.0f)))));
validation.push_back(Validator(SETTING_SUN_ARC_RADIANS, true, LLSD::TypeReal,
boost::bind(&Validator::verifyFloatRange, _1, LLSD(LLSDArray(0.0f)(0.1f)))));
validation.push_back(Validator(SETTING_RAYLEIGH_CONFIG, true, LLSD::TypeArray, &validateRayleighLayers));
validation.push_back(Validator(SETTING_ABSORPTION_CONFIG, true, LLSD::TypeArray, &validateAbsorptionLayers));
validation.push_back(Validator(SETTING_MIE_CONFIG, true, LLSD::TypeArray, &validateMieLayers));
validation.push_back(Validator(SETTING_LEGACY_HAZE, false, LLSD::TypeMap, &validateLegacyHaze));
}
return validation;
}
LLSD LLSettingsSky::rayleighConfigDefault()
{
LLSD dflt_rayleigh;
dflt_rayleigh[SETTING_DENSITY_PROFILE_WIDTH] = 0.0f; // 0 -> the entire atmosphere
dflt_rayleigh[SETTING_DENSITY_PROFILE_EXP_TERM] = 1.0f;
dflt_rayleigh[SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR] = -1.0f / 8000.0f;
dflt_rayleigh[SETTING_DENSITY_PROFILE_LINEAR_TERM] = 0.0f;
dflt_rayleigh[SETTING_DENSITY_PROFILE_CONSTANT_TERM] = 0.0f;
return dflt_rayleigh;
}
LLSD LLSettingsSky::absorptionConfigDefault()
{
// absorption (ozone) has two linear ramping zones
LLSD dflt_absorption_layer_a;
dflt_absorption_layer_a[SETTING_DENSITY_PROFILE_WIDTH] = 25000.0f; // 0 -> the entire atmosphere
dflt_absorption_layer_a[SETTING_DENSITY_PROFILE_EXP_TERM] = 0.0f;
dflt_absorption_layer_a[SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR] = 0.0f;
dflt_absorption_layer_a[SETTING_DENSITY_PROFILE_LINEAR_TERM] = -1.0f / 25000.0f;
dflt_absorption_layer_a[SETTING_DENSITY_PROFILE_CONSTANT_TERM] = -2.0f / 3.0f;
LLSD dflt_absorption_layer_b;
dflt_absorption_layer_b[SETTING_DENSITY_PROFILE_WIDTH] = 0.0f; // 0 -> remainder of the atmosphere
dflt_absorption_layer_b[SETTING_DENSITY_PROFILE_EXP_TERM] = 0.0f;
dflt_absorption_layer_b[SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR] = 0.0f;
dflt_absorption_layer_b[SETTING_DENSITY_PROFILE_LINEAR_TERM] = -1.0f / 15000.0f;
dflt_absorption_layer_b[SETTING_DENSITY_PROFILE_CONSTANT_TERM] = 8.0f / 3.0f;
LLSD dflt_absorption;
dflt_absorption.append(dflt_absorption_layer_a);
dflt_absorption.append(dflt_absorption_layer_b);
return dflt_absorption;
}
LLSD LLSettingsSky::mieConfigDefault()
{
LLSD dflt_mie;
dflt_mie[SETTING_DENSITY_PROFILE_WIDTH] = 0.0f; // 0 -> the entire atmosphere
dflt_mie[SETTING_DENSITY_PROFILE_EXP_TERM] = 1.0f;
dflt_mie[SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR] = -1.0f / 1200.0f;
dflt_mie[SETTING_DENSITY_PROFILE_LINEAR_TERM] = 0.0f;
dflt_mie[SETTING_DENSITY_PROFILE_CONSTANT_TERM] = 0.0f;
dflt_mie[SETTING_MIE_ANISOTROPY_FACTOR] = 0.9f;
return dflt_mie;
}
LLSD LLSettingsSky::defaults()
{
LLSD dfltsetting;
LLQuaternion sunquat;
sunquat.setEulerAngles(1.39626, 0.0, 0.0); // 80deg Azumith/0deg East
LLQuaternion moonquat = ~sunquat;
// Magic constants copied form dfltsetting.xml
dfltsetting[SETTING_CLOUD_COLOR] = LLColor4(0.4099, 0.4099, 0.4099, 0.0).getValue();
dfltsetting[SETTING_CLOUD_POS_DENSITY1] = LLColor4(1.0000, 0.5260, 1.0000, 0.0).getValue();
dfltsetting[SETTING_CLOUD_POS_DENSITY2] = LLColor4(1.0000, 0.5260, 1.0000, 0.0).getValue();
dfltsetting[SETTING_CLOUD_SCALE] = LLSD::Real(0.4199);
dfltsetting[SETTING_CLOUD_SCROLL_RATE] = LLSDArray(10.1999)(10.0109);
dfltsetting[SETTING_CLOUD_SHADOW] = LLSD::Real(0.2699);
dfltsetting[SETTING_DOME_OFFSET] = LLSD::Real(0.96f);
dfltsetting[SETTING_DOME_RADIUS] = LLSD::Real(15000.f);
dfltsetting[SETTING_GAMMA] = LLSD::Real(1.0);
dfltsetting[SETTING_GLOW] = LLColor4(5.000, 0.0010, -0.4799, 1.0).getValue();
dfltsetting[SETTING_LIGHT_NORMAL] = LLVector3(0.0000, 0.9126, -0.4086).getValue();
dfltsetting[SETTING_MAX_Y] = LLSD::Real(1605);
dfltsetting[SETTING_MOON_ROTATION] = moonquat.getValue();
dfltsetting[SETTING_STAR_BRIGHTNESS] = LLSD::Real(0.0000);
dfltsetting[SETTING_SUNLIGHT_COLOR] = LLColor4(0.7342, 0.7815, 0.8999, 0.0).getValue();
dfltsetting[SETTING_SUN_ROTATION] = sunquat.getValue();
dfltsetting[SETTING_BLOOM_TEXTUREID] = IMG_BLOOM1;
dfltsetting[SETTING_CLOUD_TEXTUREID] = LLUUID::null;
dfltsetting[SETTING_MOON_TEXTUREID] = IMG_MOON; // gMoonTextureID; // These two are returned by the login... wow!
dfltsetting[SETTING_SUN_TEXTUREID] = IMG_SUN; // gSunTextureID;
dfltsetting[SETTING_TYPE] = "sky";
// defaults are for earth...
dfltsetting[SETTING_PLANET_RADIUS] = 6360.0f;
dfltsetting[SETTING_SKY_BOTTOM_RADIUS] = 6360.0f;
dfltsetting[SETTING_SKY_TOP_RADIUS] = 6420.0f;
dfltsetting[SETTING_SUN_ARC_RADIANS] = 0.00935f / 2.0f;
// These are technically capable of handling multiple layers of density config
// and so are expected to be an array, but we make an array of size 1 w/ each default density config
dfltsetting[SETTING_RAYLEIGH_CONFIG].append(rayleighConfigDefault());
dfltsetting[SETTING_MIE_CONFIG].append(mieConfigDefault());
dfltsetting[SETTING_ABSORPTION_CONFIG].append(absorptionConfigDefault());
return dfltsetting;
}
LLSD LLSettingsSky::translateLegacyHazeSettings(const LLSD& legacy)
{
LLSD legacyhazesettings;
// AdvancedAtmospherics TODO
// These need to be translated into density profile info in the new settings format...
// LEGACY_ATMOSPHERICS
if (legacy.has(SETTING_BLUE_DENSITY))
{
legacyhazesettings[SETTING_BLUE_DENSITY] = LLColor3(legacy[SETTING_BLUE_DENSITY]).getValue();
}
if (legacy.has(SETTING_BLUE_HORIZON))
{
legacyhazesettings[SETTING_BLUE_HORIZON] = LLColor3(legacy[SETTING_BLUE_HORIZON]).getValue();
}
if (legacy.has(SETTING_DENSITY_MULTIPLIER))
{
legacyhazesettings[SETTING_DENSITY_MULTIPLIER] = LLSD::Real(legacy[SETTING_DENSITY_MULTIPLIER][0].asReal());
}
if (legacy.has(SETTING_DISTANCE_MULTIPLIER))
{
legacyhazesettings[SETTING_DISTANCE_MULTIPLIER] = LLSD::Real(legacy[SETTING_DISTANCE_MULTIPLIER][0].asReal());
}
if (legacy.has(SETTING_HAZE_DENSITY))
{
legacyhazesettings[SETTING_HAZE_DENSITY] = LLSD::Real(legacy[SETTING_HAZE_DENSITY][0].asReal());
}
if (legacy.has(SETTING_HAZE_HORIZON))
{
legacyhazesettings[SETTING_HAZE_HORIZON] = LLSD::Real(legacy[SETTING_HAZE_HORIZON][0].asReal());
}
return legacyhazesettings;
}
LLSD LLSettingsSky::translateLegacySettings(const LLSD& legacy)
{
LLSD newsettings(defaults());
if (legacy.has(SETTING_BLUE_DENSITY))
{
newsettings[SETTING_BLUE_DENSITY] = LLColor3(legacy[SETTING_BLUE_DENSITY]).getValue();
}
if (legacy.has(SETTING_BLUE_HORIZON))
{
newsettings[SETTING_BLUE_HORIZON] = LLColor3(legacy[SETTING_BLUE_HORIZON]).getValue();
}
if (legacy.has(SETTING_DENSITY_MULTIPLIER))
{
newsettings[SETTING_DENSITY_MULTIPLIER] = LLSD::Real(legacy[SETTING_DENSITY_MULTIPLIER][0].asReal());
}
if (legacy.has(SETTING_DISTANCE_MULTIPLIER))
{
newsettings[SETTING_DISTANCE_MULTIPLIER] = LLSD::Real(legacy[SETTING_DISTANCE_MULTIPLIER][0].asReal());
}
if (legacy.has(SETTING_HAZE_DENSITY))
{
newsettings[SETTING_HAZE_DENSITY] = LLSD::Real(legacy[SETTING_HAZE_DENSITY][0].asReal());
}
if (legacy.has(SETTING_HAZE_HORIZON))
{
newsettings[SETTING_HAZE_HORIZON] = LLSD::Real(legacy[SETTING_HAZE_HORIZON][0].asReal());
}
if (legacy.has(SETTING_AMBIENT))
{
newsettings[SETTING_AMBIENT] = LLColor3(legacy[SETTING_AMBIENT]).getValue();
}
if (legacy.has(SETTING_CLOUD_COLOR))
{
newsettings[SETTING_CLOUD_COLOR] = LLColor3(legacy[SETTING_CLOUD_COLOR]).getValue();
}
if (legacy.has(SETTING_CLOUD_POS_DENSITY1))
{
newsettings[SETTING_CLOUD_POS_DENSITY1] = LLColor3(legacy[SETTING_CLOUD_POS_DENSITY1]).getValue();
}
if (legacy.has(SETTING_CLOUD_POS_DENSITY2))
{
newsettings[SETTING_CLOUD_POS_DENSITY2] = LLColor3(legacy[SETTING_CLOUD_POS_DENSITY2]).getValue();
}
if (legacy.has(SETTING_CLOUD_SCALE))
{
newsettings[SETTING_CLOUD_SCALE] = LLSD::Real(legacy[SETTING_CLOUD_SCALE][0].asReal());
}
if (legacy.has(SETTING_CLOUD_SCROLL_RATE))
{
LLVector2 cloud_scroll(legacy[SETTING_CLOUD_SCROLL_RATE]);
if (legacy.has(SETTING_LEGACY_ENABLE_CLOUD_SCROLL))
{
LLSD enabled = legacy[SETTING_LEGACY_ENABLE_CLOUD_SCROLL];
if (!enabled[0].asBoolean())
cloud_scroll.mV[0] = 0.0f;
if (!enabled[1].asBoolean())
cloud_scroll.mV[1] = 0.0f;
}
newsettings[SETTING_CLOUD_SCROLL_RATE] = cloud_scroll.getValue();
}
if (legacy.has(SETTING_CLOUD_SHADOW))
{
newsettings[SETTING_CLOUD_SHADOW] = LLSD::Real(legacy[SETTING_CLOUD_SHADOW][0].asReal());
}
if (legacy.has(SETTING_GAMMA))
{
newsettings[SETTING_GAMMA] = legacy[SETTING_GAMMA][0].asReal();
}
if (legacy.has(SETTING_GLOW))
{
newsettings[SETTING_GLOW] = LLColor3(legacy[SETTING_GLOW]).getValue();
}
if (legacy.has(SETTING_LIGHT_NORMAL))
{
newsettings[SETTING_LIGHT_NORMAL] = LLVector3(legacy[SETTING_LIGHT_NORMAL]).getValue();
}
if (legacy.has(SETTING_MAX_Y))
{
newsettings[SETTING_MAX_Y] = LLSD::Real(legacy[SETTING_MAX_Y][0].asReal());
}
if (legacy.has(SETTING_STAR_BRIGHTNESS))
{
newsettings[SETTING_STAR_BRIGHTNESS] = LLSD::Real(legacy[SETTING_STAR_BRIGHTNESS].asReal());
}
if (legacy.has(SETTING_SUNLIGHT_COLOR))
{
newsettings[SETTING_SUNLIGHT_COLOR] = LLColor4(legacy[SETTING_SUNLIGHT_COLOR]).getValue();
}
if (legacy.has(SETTING_PLANET_RADIUS))
{
newsettings[SETTING_PLANET_RADIUS] = LLSD::Real(legacy[SETTING_PLANET_RADIUS].asReal());
}
if (legacy.has(SETTING_SKY_BOTTOM_RADIUS))
{
newsettings[SETTING_SKY_BOTTOM_RADIUS] = LLSD::Real(legacy[SETTING_SKY_BOTTOM_RADIUS].asReal());
}
if (legacy.has(SETTING_SKY_TOP_RADIUS))
{
newsettings[SETTING_SKY_TOP_RADIUS] = LLSD::Real(legacy[SETTING_SKY_TOP_RADIUS].asReal());
}
if (legacy.has(SETTING_SUN_ARC_RADIANS))
{
newsettings[SETTING_SUN_ARC_RADIANS] = LLSD::Real(legacy[SETTING_SUN_ARC_RADIANS].asReal());
}
if (legacy.has(SETTING_LEGACY_EAST_ANGLE) && legacy.has(SETTING_LEGACY_SUN_ANGLE))
{ // convert the east and sun angles into a quaternion.
F32 azimuth = legacy[SETTING_LEGACY_EAST_ANGLE].asReal();
F32 altitude = legacy[SETTING_LEGACY_SUN_ANGLE].asReal();
LLQuaternion sunquat = ::body_position_from_angles(azimuth, altitude);
LLQuaternion moonquat = ::body_position_from_angles(azimuth + F_PI, -altitude);
F32 az(0), al(0);
::angles_from_rotation(sunquat, az, al);
newsettings[SETTING_SUN_ROTATION] = sunquat.getValue();
newsettings[SETTING_MOON_ROTATION] = moonquat.getValue();
}
return newsettings;
}
void LLSettingsSky::updateSettings()
{
LL_RECORD_BLOCK_TIME(FTM_UPDATE_SKYVALUES);
//LL_INFOS("WINDLIGHT", "SKY", "EEP") << "WL Parameters are dirty. Reticulating Splines..." << LL_ENDL;
// base class clears dirty flag so as to not trigger recursive update
LLSettingsBase::updateSettings();
calculateHeavnlyBodyPositions();
calculateLightSettings();
}
void LLSettingsSky::calculateHeavnlyBodyPositions()
{
mSunDirection = DUE_EAST * getSunRotation();
mSunDirection.normalize();
mMoonDirection = DUE_EAST * getMoonRotation();
mMoonDirection.normalize();
// is the normal from the sun or the moon
if (mSunDirection.mV[1] >= 0.0)
{
mLightDirection = mSunDirection;
}
else if (mSunDirection.mV[1] < 0.0 && mSunDirection.mV[1] > NIGHTTIME_ELEVATION_COS)
{
// clamp v1 to 0 so sun never points up and causes weirdness on some machines
LLVector3 vec(mSunDirection);
vec.mV[1] = 0.0;
vec.normalize();
mLightDirection = vec;
}
else
{
mLightDirection = mMoonDirection;
}
// calculate the clamp lightnorm for sky (to prevent ugly banding in sky
// when haze goes below the horizon
mClampedLightDirection = mLightDirection;
if (mClampedLightDirection.mV[1] < -0.1f)
{
mClampedLightDirection.mV[1] = -0.1f;
mClampedLightDirection.normalize();
}
}
// Sunlight attenuation effect (hue and brightness) due to atmosphere
// this is used later for sunlight modulation at various altitudes
LLColor3 LLSettingsSky::getLightAttenuation(F32 distance) const
{
// LEGACY_ATMOSPHERICS
LLColor3 blue_density = getBlueDensity();
F32 haze_density = getHazeDensity();
F32 density_multiplier = getDensityMultiplier();
LLColor3 density = (blue_density * 1.0 + smear(haze_density * 0.25f));
LLColor3 light_atten = density * density_multiplier * distance;
return light_atten;
}
LLColor3 LLSettingsSky::getLightTransmittance() const
{
// LEGACY_ATMOSPHERICS
LLColor3 blue_density = getBlueDensity();
F32 haze_density = getHazeDensity();
F32 density_multiplier = getDensityMultiplier();
LLColor3 temp1 = blue_density + smear(haze_density);
// Transparency (-> temp1)
temp1 = componentExp((temp1 * -1.f) * density_multiplier);
return temp1;
}
LLColor3 LLSettingsSky::gammaCorrect(const LLColor3& in) const
{
F32 gamma = getGamma();
LLColor3 v(in);
v.clamp();
v= smear(1.0f) - v;
v = componentPow(v, gamma);
v = smear(1.0f) - v;
return v;
}
void LLSettingsSky::calculateLightSettings()
{
// Initialize temp variables
LLColor3 sunlight = getSunlightColor();
LLColor3 ambient = getAmbientColor();
F32 cloud_shadow = getCloudShadow();
LLVector3 lightnorm = getLightDirection();
// Sunlight attenuation effect (hue and brightness) due to atmosphere
// this is used later for sunlight modulation at various altitudes
F32 max_y = getMaxY();
LLColor3 light_atten = getLightAttenuation(max_y);
LLColor3 light_transmittance = getLightTransmittance();
// Compute sunlight from P & lightnorm (for long rays like sky)
/// USE only lightnorm.
// temp2[1] = llmax(0.f, llmax(0.f, Pn[1]) * 1.0f + lightnorm[1] );
// and vary_sunlight will work properly with moon light
F32 lighty = lightnorm[1];
if (lighty < NIGHTTIME_ELEVATION_COS)
{
lighty = -lighty;
}
lighty = llmax(0.f, lighty);
if(lighty > 0.f)
{
lighty = 1.f / lighty;
}
componentMultBy(sunlight, componentExp((light_atten * -1.f) * lighty));
//increase ambient when there are more clouds
LLColor3 tmpAmbient = ambient + (smear(1.f) - ambient) * cloud_shadow * 0.5f;
//brightness of surface both sunlight and ambient
mSunDiffuse = gammaCorrect(componentMult(sunlight, light_transmittance));
mSunAmbient = gammaCorrect(componentMult(tmpAmbient, light_transmittance) * 0.5);
mMoonDiffuse = gammaCorrect(componentMult(LLColor3::white, light_transmittance));
mMoonAmbient = gammaCorrect(componentMult(LLColor3::white, light_transmittance) * 0.5f);
mTotalAmbient = mSunAmbient;
mFadeColor = mTotalAmbient + (mSunDiffuse + mMoonDiffuse) * 0.5f;
mFadeColor.setAlpha(0);
}
//=========================================================================
namespace
{
LLQuaternion body_position_from_angles(F32 azimuth, F32 altitude)
{
// Azimuth is traditionally calculated from North, we are going from East.
LLQuaternion rot_azi;
LLQuaternion rot_alt;
rot_azi.setAngleAxis(azimuth, VECT_ZENITH);
rot_alt.setAngleAxis(-altitude, VECT_NORTHSOUTH);
LLQuaternion body_quat = rot_alt * rot_azi;
body_quat.normalize();
//LLVector3 sun_vector = (DUE_EAST * body_quat);
//_WARNS("RIDER") << "Azimuth=" << azimuth << " Altitude=" << altitude << " Body Vector=" << sun_vector.getValue() << LL_ENDL;
return body_quat;
}
void angles_from_rotation(LLQuaternion quat, F32 &azimuth, F32 &altitude)
{
LLVector3 body_vector = (DUE_EAST * quat);
LLVector3 body_az(body_vector[0], 0.f, body_vector[2]);
LLVector3 body_al(0.f, body_vector[1], body_vector[2]);
if (fabs(body_az.normalize()) > 0.001)
{
azimuth = angle_between(DUE_EAST, body_az);
if (body_az[1] < 0.0f)
azimuth = F_TWO_PI - azimuth;
}
else
azimuth = 0.0f;
if (fabs(body_al.normalize()) > 0.001)
{
altitude = angle_between(DUE_EAST, body_al);
if (body_al[2] < 0.0f)
{
altitude = F_TWO_PI - altitude;
}
}
else
altitude = 0.0f;
}
}
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