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/**
* @file llwaterparammanager.h
* @brief Implementation for the LLWaterParamManager class.
*
* $LicenseInfo:firstyear=2007&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, 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
* $/LicenseInfo$
*/
#ifndef LL_WATER_PARAMMANAGER_H
#define LL_WATER_PARAMMANAGER_H
#include <vector>
#include <map>
#include "llwaterparamset.h"
#include "llviewercamera.h"
#include "v4color.h"
const F32 WATER_FOG_LIGHT_CLAMP = 0.3f;
// color control
struct WaterColorControl {
F32 mR, mG, mB, mA, mI; /// the values
std::string mName; /// name to use to dereference params
std::string mSliderName; /// name of the slider in menu
bool mHasSliderName; /// only set slider name for true color types
inline WaterColorControl(F32 red, F32 green, F32 blue, F32 alpha,
F32 intensity, const std::string& n, const std::string& sliderName = LLStringUtil::null)
: mR(red), mG(green), mB(blue), mA(alpha), mI(intensity), mName(n), mSliderName(sliderName)
{
// if there's a slider name, say we have one
mHasSliderName = false;
if (mSliderName != "") {
mHasSliderName = true;
}
}
inline WaterColorControl & operator = (LLColor4 const & val)
{
mR = val.mV[0];
mG = val.mV[1];
mB = val.mV[2];
mA = val.mV[3];
return *this;
}
inline operator LLColor4 (void) const
{
return LLColor4(mR, mG, mB, mA);
}
inline WaterColorControl & operator = (LLVector4 const & val)
{
mR = val.mV[0];
mG = val.mV[1];
mB = val.mV[2];
mA = val.mV[3];
return *this;
}
inline operator LLVector4 (void) const
{
return LLVector4(mR, mG, mB, mA);
}
inline operator LLVector3 (void) const
{
return LLVector3(mR, mG, mB);
}
inline void update(LLWaterParamSet & params) const
{
params.set(mName, mR, mG, mB, mA);
}
};
struct WaterVector3Control
{
F32 mX;
F32 mY;
F32 mZ;
std::string mName;
// basic constructor
inline WaterVector3Control(F32 valX, F32 valY, F32 valZ, const std::string& n)
: mX(valX), mY(valY), mZ(valZ), mName(n)
{
}
inline WaterVector3Control & operator = (LLVector3 const & val)
{
mX = val.mV[0];
mY = val.mV[1];
mZ = val.mV[2];
return *this;
}
inline void update(LLWaterParamSet & params) const
{
params.set(mName, mX, mY, mZ);
}
};
struct WaterVector2Control
{
F32 mX;
F32 mY;
std::string mName;
// basic constructor
inline WaterVector2Control(F32 valX, F32 valY, const std::string& n)
: mX(valX), mY(valY), mName(n)
{
}
inline WaterVector2Control & operator = (LLVector2 const & val)
{
mX = val.mV[0];
mY = val.mV[1];
return *this;
}
inline void update(LLWaterParamSet & params) const
{
params.set(mName, mX, mY);
}
};
// float slider control
struct WaterFloatControl
{
F32 mX;
std::string mName;
F32 mMult;
inline WaterFloatControl(F32 val, const std::string& n, F32 m=1.0f)
: mX(val), mName(n), mMult(m)
{
}
inline WaterFloatControl & operator = (LLVector4 const & val)
{
mX = val.mV[0];
return *this;
}
inline operator F32 (void) const
{
return mX;
}
inline void update(LLWaterParamSet & params) const
{
params.set(mName, mX);
}
};
// float slider control
struct WaterExpFloatControl
{
F32 mExp;
std::string mName;
F32 mBase;
inline WaterExpFloatControl(F32 val, const std::string& n, F32 b)
: mExp(val), mName(n), mBase(b)
{
}
inline WaterExpFloatControl & operator = (F32 val)
{
mExp = log(val) / log(mBase);
return *this;
}
inline operator F32 (void) const
{
return pow(mBase, mExp);
}
inline void update(LLWaterParamSet & params) const
{
params.set(mName, pow(mBase, mExp));
}
};
/// WindLight parameter manager class - what controls all the wind light shaders
class LLWaterParamManager : public LLSingleton<LLWaterParamManager>
{
public:
/// load a preset file
void loadAllPresets(const std::string & fileName);
/// load an individual preset into the sky
void loadPreset(const std::string & name,bool propagate=true);
/// save the parameter presets to file
void savePreset(const std::string & name);
/// send the parameters to the shaders
void propagateParameters(void);
/// update information for the shader
void update(LLViewerCamera * cam);
/// Update shader uniforms that have changed.
void updateShaderUniforms(LLGLSLShader * shader);
// Cleanup of global data that's only inited once per class.
static void cleanupClass();
/// add a param to the list
bool addParamSet(const std::string& name, LLWaterParamSet& param);
/// add a param to the list
BOOL addParamSet(const std::string& name, LLSD const & param);
/// get a param from the list
bool getParamSet(const std::string& name, LLWaterParamSet& param);
/// set the param in the list with a new param
bool setParamSet(const std::string& name, LLWaterParamSet& param);
/// set the param in the list with a new param
bool setParamSet(const std::string& name, LLSD const & param);
/// gets rid of a parameter and any references to it
/// returns true if successful
bool removeParamSet(const std::string& name, bool delete_from_disk);
/// set the normap map we want for water
bool setNormalMapID(const LLUUID& img);
void setDensitySliderValue(F32 val);
/// getters for all the different things water param manager maintains
LLUUID getNormalMapID(void);
LLVector2 getWave1Dir(void);
LLVector2 getWave2Dir(void);
F32 getScaleAbove(void);
F32 getScaleBelow(void);
LLVector3 getNormalScale(void);
F32 getFresnelScale(void);
F32 getFresnelOffset(void);
F32 getBlurMultiplier(void);
F32 getFogDensity(void);
LLColor4 getFogColor(void);
public:
LLWaterParamSet mCurParams;
/// Atmospherics
WaterColorControl mFogColor;
WaterExpFloatControl mFogDensity;
WaterFloatControl mUnderWaterFogMod;
/// wavelet scales and directions
WaterVector3Control mNormalScale;
WaterVector2Control mWave1Dir;
WaterVector2Control mWave2Dir;
// controls how water is reflected and refracted
WaterFloatControl mFresnelScale;
WaterFloatControl mFresnelOffset;
WaterFloatControl mScaleAbove;
WaterFloatControl mScaleBelow;
WaterFloatControl mBlurMultiplier;
// list of all the parameters, listed by name
std::map<std::string, LLWaterParamSet> mParamList;
F32 mDensitySliderValue;
private:
friend class LLSingleton<LLWaterParamManager>;
/*virtual*/ void initSingleton();
LLWaterParamManager();
~LLWaterParamManager();
LLVector4 mWaterPlane;
F32 mWaterFogKS;
};
inline void LLWaterParamManager::setDensitySliderValue(F32 val)
{
val /= 10.0f;
val = 1.0f - val;
val *= val * val;
// val *= val;
mDensitySliderValue = val;
}
inline LLUUID LLWaterParamManager::getNormalMapID()
{
return mCurParams.mParamValues["normalMap"].asUUID();
}
inline bool LLWaterParamManager::setNormalMapID(const LLUUID& id)
{
mCurParams.mParamValues["normalMap"] = id;
return true;
}
inline LLVector2 LLWaterParamManager::getWave1Dir(void)
{
bool err;
return mCurParams.getVector2("wave1Dir", err);
}
inline LLVector2 LLWaterParamManager::getWave2Dir(void)
{
bool err;
return mCurParams.getVector2("wave2Dir", err);
}
inline F32 LLWaterParamManager::getScaleAbove(void)
{
bool err;
return mCurParams.getFloat("scaleAbove", err);
}
inline F32 LLWaterParamManager::getScaleBelow(void)
{
bool err;
return mCurParams.getFloat("scaleBelow", err);
}
inline LLVector3 LLWaterParamManager::getNormalScale(void)
{
bool err;
return mCurParams.getVector3("normScale", err);
}
inline F32 LLWaterParamManager::getFresnelScale(void)
{
bool err;
return mCurParams.getFloat("fresnelScale", err);
}
inline F32 LLWaterParamManager::getFresnelOffset(void)
{
bool err;
return mCurParams.getFloat("fresnelOffset", err);
}
inline F32 LLWaterParamManager::getBlurMultiplier(void)
{
bool err;
return mCurParams.getFloat("blurMultiplier", err);
}
inline LLColor4 LLWaterParamManager::getFogColor(void)
{
bool err;
return LLColor4(mCurParams.getVector4("waterFogColor", err));
}
#endif
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