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authorRider Linden <rider@lindenlab.com>2018-09-11 18:41:52 +0000
committerRider Linden <rider@lindenlab.com>2018-09-11 18:41:52 +0000
commitfe28c3e886aa8a9d5c5b9bc582b532f1235bd76c (patch)
tree9eb0310081f3c8ea2b302fcf0fe2fc76a3683e5d /indra/newview/lldensityctrl.cpp
parent43c8f5959f8afaf2f67fbbf49e78965802859b55 (diff)
parent1207c2fd006842a86e4ecf45bf653dc54081db1b (diff)
Merged in graham_linden/viewer-eep-graham (pull request #77)
SL-1936 and SL-1912 WIP
Diffstat (limited to 'indra/newview/lldensityctrl.cpp')
-rw-r--r--indra/newview/lldensityctrl.cpp225
1 files changed, 225 insertions, 0 deletions
diff --git a/indra/newview/lldensityctrl.cpp b/indra/newview/lldensityctrl.cpp
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+++ b/indra/newview/lldensityctrl.cpp
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+/**
+* @file lldensityctrl.cpp
+* @brief Control for specifying density over a height range for sky settings.
+*
+* $LicenseInfo:firstyear=2011&license=viewerlgpl$
+* 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 "lldensityctrl.h"
+
+#include "llslider.h"
+#include "llsliderctrl.h"
+#include "llsettingssky.h"
+
+static LLDefaultChildRegistry::Register<LLDensityCtrl> register_density_control("densityctrl");
+
+const std::string LLDensityCtrl::DENSITY_RAYLEIGH("density_rayleigh");
+const std::string LLDensityCtrl::DENSITY_MIE("density_mie");
+const std::string LLDensityCtrl::DENSITY_ABSORPTION("density_absorption");
+
+namespace
+{
+ const std::string FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL("level_exponential");
+ const std::string FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL_SCALE("exponential_scale");
+ const std::string FIELD_SKY_DENSITY_PROFILE_LINEAR("level_linear");
+ const std::string FIELD_SKY_DENSITY_PROFILE_CONSTANT("level_constant");
+ const std::string FIELD_SKY_DENSITY_MAX_ALTITUDE("max_altitude");
+ const std::string FIELD_SKY_DENSITY_ANISO_FACTOR("aniso_factor");
+ const std::string FIELD_SKY_DENSITY_ANISO_FACTOR_LABEL("aniso_factor_label");
+}
+
+const std::string& LLDensityCtrl::NameForDensityProfileType(DensityProfileType t)
+{
+ switch (t)
+ {
+ case Rayleigh: return DENSITY_RAYLEIGH;
+ case Mie: return DENSITY_MIE;
+ case Absorption: return DENSITY_ABSORPTION;
+ default:
+ break;
+ }
+
+ llassert(false);
+ return DENSITY_RAYLEIGH;
+}
+
+LLDensityCtrl::Params::Params()
+: image_density_feedback("image_density_feedback")
+, lbl_exponential("label_exponential")
+, lbl_exponential_scale("label_exponential_scale")
+, lbl_linear("label_linear")
+, lbl_constant("label_constant")
+, lbl_max_altitude("label_max_altitude")
+, lbl_aniso_factor("label_aniso_factor")
+, profile_type(LLDensityCtrl::Rayleigh)
+{
+}
+
+LLDensityCtrl::LLDensityCtrl(const Params& params)
+: mProfileType(params.profile_type)
+, mImgDensityFeedback(params.image_density_feedback)
+{
+
+}
+
+LLSD LLDensityCtrl::getProfileConfig()
+{
+ LLSD config;
+ switch (mProfileType)
+ {
+ case Rayleigh: return mSkySettings->getRayleighConfigs();
+ case Mie: return mSkySettings->getMieConfigs();
+ case Absorption: return mSkySettings->getAbsorptionConfigs();
+ default:
+ break;
+ }
+ llassert(false);
+ return config;
+}
+
+BOOL LLDensityCtrl::postBuild()
+{
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onExponentialChanged(); });
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL_SCALE)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onExponentialScaleFactorChanged(); });
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_LINEAR)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onLinearChanged(); });
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_CONSTANT)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onConstantChanged(); });
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_MAX_ALTITUDE)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onMaxAltitudeChanged(); });
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_ANISO_FACTOR)->setCommitCallback([this](LLUICtrl *, const LLSD &) { onAnisoFactorChanged(); });
+
+ if (mProfileType != Mie)
+ {
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_ANISO_FACTOR_LABEL)->setValue(false);
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_ANISO_FACTOR)->setVisible(false);
+ }
+
+ return TRUE;
+}
+
+void LLDensityCtrl::setEnabled(BOOL enabled)
+{
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL)->setEnabled(enabled);
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL_SCALE)->setEnabled(enabled);
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_LINEAR)->setEnabled(enabled);
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_PROFILE_CONSTANT)->setEnabled(enabled);
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_MAX_ALTITUDE)->setEnabled(enabled);
+
+ if (mProfileType == Mie)
+ {
+ getChild<LLUICtrl>(FIELD_SKY_DENSITY_ANISO_FACTOR)->setEnabled(enabled);
+ }
+}
+
+void LLDensityCtrl::refresh()
+{
+ if (!mSkySettings)
+ {
+ setAllChildrenEnabled(FALSE);
+ setEnabled(FALSE);
+ return;
+ }
+
+ setEnabled(TRUE);
+ setAllChildrenEnabled(TRUE);
+
+ LLSD config = getProfileConfig();
+
+ getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL)->setValue(config[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_TERM]);
+ getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL_SCALE)->setValue(config[LLSettingsSky::SETTING_DENSITY_PROFILE_EXP_SCALE_FACTOR]);
+ getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_LINEAR)->setValue(config[LLSettingsSky::SETTING_DENSITY_PROFILE_LINEAR_TERM]);
+ getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_CONSTANT)->setValue(config[LLSettingsSky::SETTING_DENSITY_PROFILE_CONSTANT_TERM]);
+ getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_MAX_ALTITUDE)->setValue(config[LLSettingsSky::SETTING_DENSITY_PROFILE_WIDTH]);
+
+ if (mProfileType == Mie)
+ {
+ getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_ANISO_FACTOR)->setValue(config[LLSettingsSky::SETTING_MIE_ANISOTROPY_FACTOR]);
+ }
+}
+
+void LLDensityCtrl::updateProfile()
+{
+ F32 exponential_term = getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL)->getValueF32();
+ F32 exponential_scale = getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_EXPONENTIAL_SCALE)->getValueF32();
+ F32 linear_term = getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_LINEAR)->getValueF32();
+ F32 constant_term = getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_PROFILE_CONSTANT)->getValueF32();
+ F32 max_alt = getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_MAX_ALTITUDE)->getValueF32();
+ F32 aniso_factor = 0.0f;
+
+ if (mProfileType == Mie)
+ {
+ aniso_factor = getChild<LLSliderCtrl>(FIELD_SKY_DENSITY_ANISO_FACTOR)->getValueF32();
+ }
+
+ LLSD profile = LLSettingsSky::createSingleLayerDensityProfile(max_alt, exponential_term, exponential_scale, linear_term, constant_term, aniso_factor);
+
+ switch (mProfileType)
+ {
+ case Rayleigh: mSkySettings->setRayleighConfigs(profile); break;
+ case Mie: mSkySettings->setMieConfigs(profile); break;
+ case Absorption: mSkySettings->setAbsorptionConfigs(profile); break;
+ default:
+ break;
+ }
+}
+
+void LLDensityCtrl::onExponentialChanged()
+{
+ updateProfile();
+ updatePreview();
+}
+
+void LLDensityCtrl::onExponentialScaleFactorChanged()
+{
+ updateProfile();
+ updatePreview();
+}
+
+void LLDensityCtrl::onLinearChanged()
+{
+ updateProfile();
+ updatePreview();
+}
+
+void LLDensityCtrl::onConstantChanged()
+{
+ updateProfile();
+ updatePreview();
+}
+
+void LLDensityCtrl::onMaxAltitudeChanged()
+{
+ updateProfile();
+ updatePreview();
+}
+
+void LLDensityCtrl::onAnisoFactorChanged()
+{
+ updateProfile();
+}
+
+void LLDensityCtrl::updatePreview()
+{
+ // AdvancedAtmospherics TODO
+ // Generate image according to current density profile
+}
+