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|
/**
* @file llfloaterfixedenvironment.cpp
* @brief Floaters to create and edit fixed settings for sky and water.
*
* $LicenseInfo:firstyear=2011&license=viewerlgpl$
* 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 "llfloaterenvironmentadjust.h"
#include "llnotificationsutil.h"
#include "llslider.h"
#include "llsliderctrl.h"
#include "llcolorswatch.h"
#include "lltexturectrl.h"
#include "llvirtualtrackball.h"
#include "llenvironment.h"
#include "llviewercontrol.h"
#include "pipeline.h"
//=========================================================================
namespace
{
const std::string FIELD_SKY_AMBIENT_LIGHT("ambient_light");
const std::string FIELD_SKY_BLUE_HORIZON("blue_horizon");
const std::string FIELD_SKY_BLUE_DENSITY("blue_density");
const std::string FIELD_SKY_SUN_COLOR("sun_color");
const std::string FIELD_SKY_CLOUD_COLOR("cloud_color");
const std::string FIELD_SKY_HAZE_HORIZON("haze_horizon");
const std::string FIELD_SKY_HAZE_DENSITY("haze_density");
const std::string FIELD_SKY_CLOUD_COVERAGE("cloud_coverage");
const std::string FIELD_SKY_CLOUD_MAP("cloud_map");
const std::string FIELD_WATER_NORMAL_MAP("water_normal_map");
const std::string FIELD_SKY_CLOUD_SCALE("cloud_scale");
const std::string FIELD_SKY_SCENE_GAMMA("scene_gamma");
const std::string FIELD_SKY_SUN_ROTATION("sun_rotation");
const std::string FIELD_SKY_SUN_AZIMUTH("sun_azimuth");
const std::string FIELD_SKY_SUN_ELEVATION("sun_elevation");
const std::string FIELD_SKY_SUN_SCALE("sun_scale");
const std::string FIELD_SKY_GLOW_FOCUS("glow_focus");
const std::string FIELD_SKY_GLOW_SIZE("glow_size");
const std::string FIELD_SKY_STAR_BRIGHTNESS("star_brightness");
const std::string FIELD_SKY_MOON_ROTATION("moon_rotation");
const std::string FIELD_SKY_MOON_AZIMUTH("moon_azimuth");
const std::string FIELD_SKY_MOON_ELEVATION("moon_elevation");
const std::string FIELD_REFLECTION_PROBE_AMBIANCE("probe_ambiance");
const std::string BTN_RESET("btn_reset");
const F32 SLIDER_SCALE_SUN_AMBIENT(3.0f);
const F32 SLIDER_SCALE_BLUE_HORIZON_DENSITY(2.0f);
const F32 SLIDER_SCALE_GLOW_R(20.0f);
const F32 SLIDER_SCALE_GLOW_B(-5.0f);
//const F32 SLIDER_SCALE_DENSITY_MULTIPLIER(0.001f);
const S32 FLOATER_ENVIRONMENT_UPDATE(-2);
}
//=========================================================================
LLFloaterEnvironmentAdjust::LLFloaterEnvironmentAdjust(const LLSD &key):
LLFloater(key)
{}
LLFloaterEnvironmentAdjust::~LLFloaterEnvironmentAdjust()
{}
//-------------------------------------------------------------------------
BOOL LLFloaterEnvironmentAdjust::postBuild()
{
getChild<LLUICtrl>(FIELD_SKY_AMBIENT_LIGHT)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onAmbientLightChanged(); });
getChild<LLUICtrl>(FIELD_SKY_BLUE_HORIZON)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onBlueHorizonChanged(); });
getChild<LLUICtrl>(FIELD_SKY_BLUE_DENSITY)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onBlueDensityChanged(); });
getChild<LLUICtrl>(FIELD_SKY_HAZE_HORIZON)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onHazeHorizonChanged(); });
getChild<LLUICtrl>(FIELD_SKY_HAZE_DENSITY)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onHazeDensityChanged(); });
getChild<LLUICtrl>(FIELD_SKY_SCENE_GAMMA)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onSceneGammaChanged(); });
getChild<LLUICtrl>(FIELD_SKY_CLOUD_COLOR)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onCloudColorChanged(); });
getChild<LLUICtrl>(FIELD_SKY_CLOUD_COVERAGE)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onCloudCoverageChanged(); });
getChild<LLUICtrl>(FIELD_SKY_CLOUD_SCALE)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onCloudScaleChanged(); });
getChild<LLUICtrl>(FIELD_SKY_SUN_COLOR)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onSunColorChanged(); });
getChild<LLUICtrl>(FIELD_SKY_GLOW_FOCUS)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onGlowChanged(); });
getChild<LLUICtrl>(FIELD_SKY_GLOW_SIZE)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onGlowChanged(); });
getChild<LLUICtrl>(FIELD_SKY_STAR_BRIGHTNESS)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onStarBrightnessChanged(); });
getChild<LLUICtrl>(FIELD_SKY_SUN_ROTATION)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onSunRotationChanged(); });
getChild<LLUICtrl>(FIELD_SKY_SUN_AZIMUTH)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onSunAzimElevChanged(); });
getChild<LLUICtrl>(FIELD_SKY_SUN_ELEVATION)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onSunAzimElevChanged(); });
getChild<LLUICtrl>(FIELD_SKY_SUN_SCALE)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onSunScaleChanged(); });
getChild<LLUICtrl>(FIELD_SKY_MOON_ROTATION)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onMoonRotationChanged(); });
getChild<LLUICtrl>(FIELD_SKY_MOON_AZIMUTH)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onMoonAzimElevChanged(); });
getChild<LLUICtrl>(FIELD_SKY_MOON_ELEVATION)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onMoonAzimElevChanged(); });
getChild<LLUICtrl>(BTN_RESET)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onButtonReset(); });
getChild<LLTextureCtrl>(FIELD_SKY_CLOUD_MAP)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onCloudMapChanged(); });
getChild<LLTextureCtrl>(FIELD_SKY_CLOUD_MAP)->setDefaultImageAssetID(LLSettingsSky::GetDefaultCloudNoiseTextureId());
getChild<LLTextureCtrl>(FIELD_SKY_CLOUD_MAP)->setAllowNoTexture(TRUE);
getChild<LLTextureCtrl>(FIELD_WATER_NORMAL_MAP)->setDefaultImageAssetID(LLSettingsWater::GetDefaultWaterNormalAssetId());
getChild<LLTextureCtrl>(FIELD_WATER_NORMAL_MAP)->setBlankImageAssetID(BLANK_OBJECT_NORMAL);
getChild<LLTextureCtrl>(FIELD_WATER_NORMAL_MAP)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onWaterMapChanged(); });
getChild<LLUICtrl>(FIELD_REFLECTION_PROBE_AMBIANCE)->setCommitCallback([this](LLUICtrl*, const LLSD&) { onReflectionProbeAmbianceChanged(); });
refresh();
return TRUE;
}
void LLFloaterEnvironmentAdjust::onOpen(const LLSD& key)
{
if (!mLiveSky)
{
LLEnvironment::instance().saveBeaconsState();
}
captureCurrentEnvironment();
mEventConnection = LLEnvironment::instance().setEnvironmentChanged([this](LLEnvironment::EnvSelection_t env, S32 version){ onEnvironmentUpdated(env, version); });
// HACK -- resume reflection map manager because "setEnvironmentChanged" may pause it (SL-20456)
gPipeline.mReflectionMapManager.resume();
LLFloater::onOpen(key);
refresh();
}
void LLFloaterEnvironmentAdjust::onClose(bool app_quitting)
{
LLEnvironment::instance().revertBeaconsState();
mEventConnection.disconnect();
mLiveSky.reset();
mLiveWater.reset();
LLFloater::onClose(app_quitting);
}
//-------------------------------------------------------------------------
void LLFloaterEnvironmentAdjust::refresh()
{
if (!mLiveSky || !mLiveWater)
{
setAllChildrenEnabled(FALSE);
return;
}
setEnabled(TRUE);
setAllChildrenEnabled(TRUE);
getChild<LLColorSwatchCtrl>(FIELD_SKY_AMBIENT_LIGHT)->set(mLiveSky->getAmbientColor() / SLIDER_SCALE_SUN_AMBIENT);
getChild<LLColorSwatchCtrl>(FIELD_SKY_BLUE_HORIZON)->set(mLiveSky->getBlueHorizon() / SLIDER_SCALE_BLUE_HORIZON_DENSITY);
getChild<LLColorSwatchCtrl>(FIELD_SKY_BLUE_DENSITY)->set(mLiveSky->getBlueDensity() / SLIDER_SCALE_BLUE_HORIZON_DENSITY);
getChild<LLUICtrl>(FIELD_SKY_HAZE_HORIZON)->setValue(mLiveSky->getHazeHorizon());
getChild<LLUICtrl>(FIELD_SKY_HAZE_DENSITY)->setValue(mLiveSky->getHazeDensity());
getChild<LLUICtrl>(FIELD_SKY_SCENE_GAMMA)->setValue(mLiveSky->getGamma());
getChild<LLColorSwatchCtrl>(FIELD_SKY_CLOUD_COLOR)->set(mLiveSky->getCloudColor());
getChild<LLUICtrl>(FIELD_SKY_CLOUD_COVERAGE)->setValue(mLiveSky->getCloudShadow());
getChild<LLUICtrl>(FIELD_SKY_CLOUD_SCALE)->setValue(mLiveSky->getCloudScale());
getChild<LLColorSwatchCtrl>(FIELD_SKY_SUN_COLOR)->set(mLiveSky->getSunlightColor() / SLIDER_SCALE_SUN_AMBIENT);
getChild<LLTextureCtrl>(FIELD_SKY_CLOUD_MAP)->setValue(mLiveSky->getCloudNoiseTextureId());
getChild<LLTextureCtrl>(FIELD_WATER_NORMAL_MAP)->setValue(mLiveWater->getNormalMapID());
static LLCachedControl<bool> should_auto_adjust(gSavedSettings, "RenderSkyAutoAdjustLegacy", true);
getChild<LLUICtrl>(FIELD_REFLECTION_PROBE_AMBIANCE)->setValue(mLiveSky->getReflectionProbeAmbiance(should_auto_adjust));
LLColor3 glow(mLiveSky->getGlow());
// takes 40 - 0.2 range -> 0 - 1.99 UI range
getChild<LLUICtrl>(FIELD_SKY_GLOW_SIZE)->setValue(2.0 - (glow.mV[0] / SLIDER_SCALE_GLOW_R));
getChild<LLUICtrl>(FIELD_SKY_GLOW_FOCUS)->setValue(glow.mV[2] / SLIDER_SCALE_GLOW_B);
getChild<LLUICtrl>(FIELD_SKY_STAR_BRIGHTNESS)->setValue(mLiveSky->getStarBrightness());
getChild<LLUICtrl>(FIELD_SKY_SUN_SCALE)->setValue(mLiveSky->getSunScale());
// Sun rotation
LLQuaternion quat = mLiveSky->getSunRotation();
F32 azimuth;
F32 elevation;
LLVirtualTrackball::getAzimuthAndElevationDeg(quat, azimuth, elevation);
getChild<LLUICtrl>(FIELD_SKY_SUN_AZIMUTH)->setValue(azimuth);
getChild<LLUICtrl>(FIELD_SKY_SUN_ELEVATION)->setValue(elevation);
getChild<LLVirtualTrackball>(FIELD_SKY_SUN_ROTATION)->setRotation(quat);
// Moon rotation
quat = mLiveSky->getMoonRotation();
LLVirtualTrackball::getAzimuthAndElevationDeg(quat, azimuth, elevation);
getChild<LLUICtrl>(FIELD_SKY_MOON_AZIMUTH)->setValue(azimuth);
getChild<LLUICtrl>(FIELD_SKY_MOON_ELEVATION)->setValue(elevation);
getChild<LLVirtualTrackball>(FIELD_SKY_MOON_ROTATION)->setRotation(quat);
updateGammaLabel();
}
void LLFloaterEnvironmentAdjust::captureCurrentEnvironment()
{
LLEnvironment &environment(LLEnvironment::instance());
bool updatelocal(false);
if (environment.hasEnvironment(LLEnvironment::ENV_LOCAL))
{
if (environment.getEnvironmentDay(LLEnvironment::ENV_LOCAL))
{ // We have a full day cycle in the local environment. Freeze the sky
mLiveSky = environment.getEnvironmentFixedSky(LLEnvironment::ENV_LOCAL)->buildClone();
mLiveWater = environment.getEnvironmentFixedWater(LLEnvironment::ENV_LOCAL)->buildClone();
updatelocal = true;
}
else
{ // otherwise we can just use the sky.
mLiveSky = environment.getEnvironmentFixedSky(LLEnvironment::ENV_LOCAL);
mLiveWater = environment.getEnvironmentFixedWater(LLEnvironment::ENV_LOCAL);
}
}
else
{
mLiveSky = environment.getEnvironmentFixedSky(LLEnvironment::ENV_PARCEL, true)->buildClone();
mLiveWater = environment.getEnvironmentFixedWater(LLEnvironment::ENV_PARCEL, true)->buildClone();
updatelocal = true;
}
if (updatelocal)
{
environment.setEnvironment(LLEnvironment::ENV_LOCAL, mLiveSky, FLOATER_ENVIRONMENT_UPDATE);
environment.setEnvironment(LLEnvironment::ENV_LOCAL, mLiveWater, FLOATER_ENVIRONMENT_UPDATE);
}
environment.setSelectedEnvironment(LLEnvironment::ENV_LOCAL);
environment.updateEnvironment(LLEnvironment::TRANSITION_INSTANT);
}
void LLFloaterEnvironmentAdjust::onButtonReset()
{
LLNotificationsUtil::add("PersonalSettingsConfirmReset", LLSD(), LLSD(),
[this](const LLSD¬if, const LLSD&resp)
{
S32 opt = LLNotificationsUtil::getSelectedOption(notif, resp);
if (opt == 0)
{
this->closeFloater();
LLEnvironment::instance().clearEnvironment(LLEnvironment::ENV_LOCAL);
LLEnvironment::instance().setSelectedEnvironment(LLEnvironment::ENV_LOCAL);
LLEnvironment::instance().updateEnvironment();
}
});
}
//-------------------------------------------------------------------------
void LLFloaterEnvironmentAdjust::onAmbientLightChanged()
{
if (!mLiveSky)
return;
mLiveSky->setAmbientColor(LLColor3(getChild<LLColorSwatchCtrl>(FIELD_SKY_AMBIENT_LIGHT)->get() * SLIDER_SCALE_SUN_AMBIENT));
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onBlueHorizonChanged()
{
if (!mLiveSky)
return;
mLiveSky->setBlueHorizon(LLColor3(getChild<LLColorSwatchCtrl>(FIELD_SKY_BLUE_HORIZON)->get() * SLIDER_SCALE_BLUE_HORIZON_DENSITY));
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onBlueDensityChanged()
{
if (!mLiveSky)
return;
mLiveSky->setBlueDensity(LLColor3(getChild<LLColorSwatchCtrl>(FIELD_SKY_BLUE_DENSITY)->get() * SLIDER_SCALE_BLUE_HORIZON_DENSITY));
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onHazeHorizonChanged()
{
if (!mLiveSky)
return;
mLiveSky->setHazeHorizon(getChild<LLUICtrl>(FIELD_SKY_HAZE_HORIZON)->getValue().asReal());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onHazeDensityChanged()
{
if (!mLiveSky)
return;
mLiveSky->setHazeDensity(getChild<LLUICtrl>(FIELD_SKY_HAZE_DENSITY)->getValue().asReal());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onSceneGammaChanged()
{
if (!mLiveSky)
return;
mLiveSky->setGamma(getChild<LLUICtrl>(FIELD_SKY_SCENE_GAMMA)->getValue().asReal());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onCloudColorChanged()
{
if (!mLiveSky)
return;
mLiveSky->setCloudColor(LLColor3(getChild<LLColorSwatchCtrl>(FIELD_SKY_CLOUD_COLOR)->get()));
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onCloudCoverageChanged()
{
if (!mLiveSky)
return;
mLiveSky->setCloudShadow(getChild<LLUICtrl>(FIELD_SKY_CLOUD_COVERAGE)->getValue().asReal());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onCloudScaleChanged()
{
if (!mLiveSky)
return;
mLiveSky->setCloudScale(getChild<LLUICtrl>(FIELD_SKY_CLOUD_SCALE)->getValue().asReal());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onGlowChanged()
{
if (!mLiveSky)
return;
LLColor3 glow(getChild<LLUICtrl>(FIELD_SKY_GLOW_SIZE)->getValue().asReal(), 0.0f, getChild<LLUICtrl>(FIELD_SKY_GLOW_FOCUS)->getValue().asReal());
// takes 0 - 1.99 UI range -> 40 -> 0.2 range
glow.mV[0] = (2.0f - glow.mV[0]) * SLIDER_SCALE_GLOW_R;
glow.mV[2] *= SLIDER_SCALE_GLOW_B;
mLiveSky->setGlow(glow);
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onStarBrightnessChanged()
{
if (!mLiveSky)
return;
mLiveSky->setStarBrightness(getChild<LLUICtrl>(FIELD_SKY_STAR_BRIGHTNESS)->getValue().asReal());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onSunRotationChanged()
{
LLQuaternion quat = getChild<LLVirtualTrackball>(FIELD_SKY_SUN_ROTATION)->getRotation();
F32 azimuth;
F32 elevation;
LLVirtualTrackball::getAzimuthAndElevationDeg(quat, azimuth, elevation);
getChild<LLUICtrl>(FIELD_SKY_SUN_AZIMUTH)->setValue(azimuth);
getChild<LLUICtrl>(FIELD_SKY_SUN_ELEVATION)->setValue(elevation);
if (mLiveSky)
{
mLiveSky->setSunRotation(quat);
mLiveSky->update();
}
}
void LLFloaterEnvironmentAdjust::onSunAzimElevChanged()
{
F32 azimuth = getChild<LLUICtrl>(FIELD_SKY_SUN_AZIMUTH)->getValue().asReal();
F32 elevation = getChild<LLUICtrl>(FIELD_SKY_SUN_ELEVATION)->getValue().asReal();
LLQuaternion quat;
azimuth *= DEG_TO_RAD;
elevation *= DEG_TO_RAD;
if (is_approx_zero(elevation))
{
elevation = F_APPROXIMATELY_ZERO;
}
quat.setAngleAxis(-elevation, 0, 1, 0);
LLQuaternion az_quat;
az_quat.setAngleAxis(F_TWO_PI - azimuth, 0, 0, 1);
quat *= az_quat;
getChild<LLVirtualTrackball>(FIELD_SKY_SUN_ROTATION)->setRotation(quat);
if (mLiveSky)
{
mLiveSky->setSunRotation(quat);
mLiveSky->update();
}
}
void LLFloaterEnvironmentAdjust::onSunScaleChanged()
{
if (!mLiveSky)
return;
mLiveSky->setSunScale((getChild<LLUICtrl>(FIELD_SKY_SUN_SCALE)->getValue().asReal()));
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onMoonRotationChanged()
{
LLQuaternion quat = getChild<LLVirtualTrackball>(FIELD_SKY_MOON_ROTATION)->getRotation();
F32 azimuth;
F32 elevation;
LLVirtualTrackball::getAzimuthAndElevationDeg(quat, azimuth, elevation);
getChild<LLUICtrl>(FIELD_SKY_MOON_AZIMUTH)->setValue(azimuth);
getChild<LLUICtrl>(FIELD_SKY_MOON_ELEVATION)->setValue(elevation);
if (mLiveSky)
{
mLiveSky->setMoonRotation(quat);
mLiveSky->update();
}
}
void LLFloaterEnvironmentAdjust::onMoonAzimElevChanged()
{
F32 azimuth = getChild<LLUICtrl>(FIELD_SKY_MOON_AZIMUTH)->getValue().asReal();
F32 elevation = getChild<LLUICtrl>(FIELD_SKY_MOON_ELEVATION)->getValue().asReal();
LLQuaternion quat;
azimuth *= DEG_TO_RAD;
elevation *= DEG_TO_RAD;
if (is_approx_zero(elevation))
{
elevation = F_APPROXIMATELY_ZERO;
}
quat.setAngleAxis(-elevation, 0, 1, 0);
LLQuaternion az_quat;
az_quat.setAngleAxis(F_TWO_PI - azimuth, 0, 0, 1);
quat *= az_quat;
getChild<LLVirtualTrackball>(FIELD_SKY_MOON_ROTATION)->setRotation(quat);
if (mLiveSky)
{
mLiveSky->setMoonRotation(quat);
mLiveSky->update();
}
}
void LLFloaterEnvironmentAdjust::onCloudMapChanged()
{
if (!mLiveSky)
return;
mLiveSky->setCloudNoiseTextureId(getChild<LLTextureCtrl>(FIELD_SKY_CLOUD_MAP)->getValue().asUUID());
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onWaterMapChanged()
{
if (!mLiveWater)
return;
mLiveWater->setNormalMapID(getChild<LLTextureCtrl>(FIELD_WATER_NORMAL_MAP)->getValue().asUUID());
mLiveWater->update();
}
void LLFloaterEnvironmentAdjust::onSunColorChanged()
{
if (!mLiveSky)
return;
LLColor3 color(getChild<LLColorSwatchCtrl>(FIELD_SKY_SUN_COLOR)->get());
color *= SLIDER_SCALE_SUN_AMBIENT;
mLiveSky->setSunlightColor(color);
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::onReflectionProbeAmbianceChanged()
{
if (!mLiveSky) return;
F32 ambiance = getChild<LLUICtrl>(FIELD_REFLECTION_PROBE_AMBIANCE)->getValue().asReal();
mLiveSky->setReflectionProbeAmbiance(ambiance);
updateGammaLabel();
mLiveSky->update();
}
void LLFloaterEnvironmentAdjust::updateGammaLabel()
{
if (!mLiveSky) return;
static LLCachedControl<bool> should_auto_adjust(gSavedSettings, "RenderSkyAutoAdjustLegacy", true);
F32 ambiance = mLiveSky->getReflectionProbeAmbiance(should_auto_adjust);
if (ambiance != 0.f)
{
childSetValue("scene_gamma_label", getString("hdr_string"));
getChild<LLUICtrl>(FIELD_SKY_SCENE_GAMMA)->setToolTip(getString("hdr_tooltip"));
}
else
{
childSetValue("scene_gamma_label", getString("brightness_string"));
getChild<LLUICtrl>(FIELD_SKY_SCENE_GAMMA)->setToolTip(std::string());
}
}
void LLFloaterEnvironmentAdjust::onEnvironmentUpdated(LLEnvironment::EnvSelection_t env, S32 version)
{
if (env == LLEnvironment::ENV_LOCAL)
{ // a new local environment has been applied
if (version != FLOATER_ENVIRONMENT_UPDATE)
{ // not by this floater
captureCurrentEnvironment();
refresh();
}
}
}
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