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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Additional permissions under GNU GPL version 3 section 7
If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the
licensors of this Program grant you additional
permission to convey the resulting work. Corresponding Source for a
non-source form of such a combination shall include the source code for
the parts of OpenSSL and IJG JPEG Library used as well as that of the covered
work.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
#ifndef plWaveSet7_inc
#define plWaveSet7_inc
#include "hsGeometry3.h"
#include "hsTemplates.h"
#include "pnEncryption/plRandom.h"
#include "hsBounds.h"
#include "plFixedWaterState7.h"
#include "plWaveSetBase.h"
class hsStream;
class hsResMgr;
class plAccessVtxSpan;
class plMessage;
class hsGMaterial;
class plDrawableSpans;
class plRenderMsg;
class plArmatureUpdateMsg;
class plGenRefMsg;
class plAuxSpan;
class plDynaDecalMgr;
class plGBufferGroup;
class plBitmap;
class plMipmap;
class plLayer;
class plRenderRequest;
class plRenderRequestMsg;
class plRenderTarget;
class plShader;
class plPipeline;
class plRipVSConsts;
class plStatusLog;
class plGraphPlate;
class plWorldWaveData7
{
public:
hsPoint3 fDir;
float fLength;
float fFreq;
float fPhase;
float fAmplitude;
};
class plWorldWave7 : public plWorldWaveData7
{
public:
inline void Accumulate(hsPoint3& accumPos, hsVector3& accumNorm) const;
};
class plWaveSet7 : public plWaveSetBase
{
public:
// Props inc by 1 (bit shift in bitvector).
enum plDrawProperties {
kDisable = 0,
kNumProps // last in the list
};
// Flags, also in a bitvector, so far unused in the multimodifier
enum {
kHasRefObject = 16
};
enum {
kNumWaves = 4
};
enum {
kRefDynaDecalMgr,
kRefBuoy,
kRefBumpMat,
kRefBumpDraw,
kRefBumpVShader,
kRefBumpPShader,
kRefBiasVShader,
kRefBiasPShader,
kRefRipVShader,
kRefRipPShader,
kRefShoreVShader,
kRefShorePShader,
kRefFixedVShader,
kRefFixedPShader,
kRefGraphShoreTex,
kRefBubbleShoreTex,
kRefEdgeShoreTex,
kRefGraphShoreMat,
kRefGraphShoreDraw,
kRefGraphVShader,
kRefGraphPShader,
kRefGraphShoreRT,
kRefShore,
kRefDecal,
kRefDecVShader,
kRefDecPShader,
kRefEnvMap,
kRefCosineLUT,
kRefRefObj
};
enum {
kGraphShorePasses = 3
};
enum {
kNumWindDep = 5
};
enum {
kNumTexWaves = 16
};
enum {
kBumpPerPass = 4
};
enum {
kNumBumpShaders = kNumTexWaves / kBumpPerPass
};
enum {
kCompositeSize = 256
};
enum {
kUpdateWaveKs = 0x1,
kRemakeBubble = 0x2,
kRemakeEdge = 0x4,
kReRenderEnvMap = 0x8,
kReInitWaves = 0x10
};
protected:
double fCurrTime;
double fLastTime;
plStatusLog* fStatusLog;
plGraphPlate* fStatusGraph;
uint32_t fTrialUpdate;
plFixedWaterState7 fState;
float fScrunchLen;
float fScrunchScale;
hsVector3 fWindDir;
float fMinLen;
float fMaxLen;
float fFreqScale;
float fTransCountDown;
int fTransistor;
float fTransDel;
float fTexTransCountDown;
int fTexTrans;
float fTexTransDel;
float fTexWaveFade[kNumTexWaves];
plWorldWave7 fWorldWaves[kNumWaves];
float fFreqMod[kNumWaves];
plRandom fRand;
plKey fSceneNode;
hsTArray<plDynaDecalMgr*> fDecalMgrs;
hsTArray<plSceneObject*> fBuoys;
hsTArray<plSceneObject*> fShores;
hsTArray<plSceneObject*> fDecals;
plSceneObject* fRefObj;
hsTArray<hsBounds3Ext> fTargBnds;
plLayer* fBiasLayer[2];
plLayer* fBumpLayers[kNumTexWaves];
hsGMaterial* fBumpMat;
plDrawableSpans* fBumpDraw;
plRenderRequest* fBumpReq;
plRenderRequestMsg* fBumpReqMsg;
plMipmap* fCosineLUT;
plShader* fBumpVShader[kNumBumpShaders];
plShader* fBumpPShader[kNumBumpShaders];
plShader* fBiasVShader;
plShader* fBiasPShader;
plBitmap* fEnvMap;
uint32_t fEnvSize;
float fEnvRefresh;
plLayer* fFixedLayers[4];
plShader* fRipVShader;
plShader* fRipPShader;
plShader* fShoreVShader;
plShader* fShorePShader;
plShader* fFixedVShader;
plShader* fFixedPShader;
enum DecalVType {
kDecalV1Lay,
kDecalV2Lay11,
kDecalV2Lay12,
kDecalVEnv,
kNumDecalVShaders
};
enum DecalPType {
kDecalPBB,
kDecalPaB,
kDecalPaM,
kDecalPaA,
kDecalPAB,
kDecalPAM,
kDecalPAA,
kDecalPMB,
kDecalPMM,
kDecalPMA,
kDecalPEnv,
kNumDecalPShaders
};
plShader* fDecalVShaders[kNumDecalVShaders];
plShader* fDecalPShaders[kNumDecalPShaders];
// Graph shore stuff
plMipmap* fGraphShoreTex;
plMipmap* fBubbleShoreTex;
plMipmap* fEdgeShoreTex;
hsGMaterial* fGraphShoreMat[kGraphShorePasses];
plDrawableSpans* fGraphShoreDraw[kGraphShorePasses];
plRenderTarget* fGraphShoreRT[kGraphShorePasses];
plRenderRequest* fGraphReq[kGraphShorePasses];
plRenderRequestMsg* fGraphReqMsg[kGraphShorePasses];
plShader* fGraphVShader[kGraphShorePasses];
plShader* fGraphPShader[kGraphShorePasses];
class GraphState
{
public:
float fAge;
float fInvLife;
float fUOff;
float fFreq[4];
float fPhase[4];
float fAmp[4];
};
GraphState fGraphState[kGraphShorePasses];
class WaveK
{
public:
// fK is the number of times the sine wave repeats across the texture. Must be an integer
// fS/fK is the base X component of the direction of the wave, with Y = 1.f - X. Note that X^2 + Y^2 != 1.
// fD allows the wave to get more off the Y direction
// So the X component will be Int(fS + fD*dispersion) / fK, because it must be an integer ratio to
// preserve tiling. Also, (fS + fD) must be <= fK (for the Y normalization).
// See the notes.
float fS;
float fK;
float fD;
};
WaveK fWaveKs[kNumTexWaves];
class TexWaveDesc
{
public:
float fPhase;
float fAmp;
float fLen;
float fFreq;
float fDirX;
float fDirY;
float fRotScale00;
float fRotScale01;
};
TexWaveDesc fTexWaves[kNumTexWaves];
class TexWaveWindDep
{
public:
float fWindSpeed;
float fHeight;
float fSpecular;
};
TexWaveWindDep fWindDeps[kNumWindDep];
void IInitWaveConsts();
void IInitState();
inline void IScrunch(hsPoint3& pos, hsVector3& norm) const;
void ICalcWindow(float dt);
void ICalcScale();
void IUpdateWaves(float dt);
void IUpdateWave(float dt, int i);
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bool IAnyBoundsVisible(plPipeline* pipe) const;
void IInitWave(int i);
void IReInitWaves();
void IUpdateRefObject();
void IUpdateWindDir(float dt);
void IShiftCenter(plSceneObject* so) const;
void IFloatBuoys(float dt);
void IFloatBuoy(float dt, plSceneObject* so);
// Bookkeeping
void IAddTarget(const plKey& key);
void IRemoveTarget(const plKey& key);
void ISetWindSpeed(float s);
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bool IOnReceive(plGenRefMsg* refMsg);
bool IOnRemove(plGenRefMsg* refMsg);
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bool ITransContinue(float dt);
void IStartTransition(float dt);
float ITransitionDelay() const;
void ITransition(float dt);
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bool ITransTexContinue(float dt);
void IStartTexTransition(float dt);
void ITransTex(float dt);
void IInitTexWave(int i);
void ISetupTextureWaves();
void IUpdateLayers(float dt);
void IUpdateBumpLayers(float dt);
plRenderRequest* ICreateRenderRequest(plRenderTarget* rt, plDrawableSpans* draw, float pri);
void ISubmitRenderRequests();
plRenderTarget* ICreateTransferRenderTarget(const char* name, int size);
plDrawableSpans* ICreateClearDrawable(plDrawableSpans* drawable, hsGMaterial* mat);
void IAddBumpBiasShaders(plLayer* layer);
plMipmap* ICreateBiasNoiseMap();
void IAddBumpBiasLayer(hsGMaterial* mat);
plMipmap* ICreateBumpBitmapFFP(float amp, float dx, float dy) const;
hsGMaterial* ICreateBumpLayersFFP();
plMipmap* ICreateBumpMipmapPS();
plLayer* ICreateBumpLayerPS(plMipmap* mipMap, hsGMaterial* bumpMat, int which);
hsGMaterial* ICreateBumpLayersPS();
plDrawableSpans* ICreateBumpDrawable();
plLayer* ICreateTotalEnvLayer(plBitmap* envMap, hsGMaterial* mat, int which, const char* pref);
plLayer* ICreateTotalLayer(plBitmap* bm, hsGMaterial* mat, int which, const char* suff);
hsGMaterial* ICreateFixedMatPS(hsGMaterial* mat, const int numUVWs);
void ICreateFixedMat(hsGMaterial* mat, const int numUVWs);
void ICheckTargetMaterials();
plDrawableSpans* ICreateGraphDrawable(plDrawableSpans* drawable, hsGMaterial* mat, int nWid);
plDrawableSpans* ICreateEmptyGraphDrawable(const char* name, uint32_t ref, int wich);
hsGMaterial* ICreateEmptyMaterial(const char* name, uint32_t ref, int which);
plLayer* ICreateBlankLayer(const char* name, int suff);
plMipmap* ICreateBlankTex(const char* name, int width, int height, uint32_t ref);
plMipmap* ICreateGraphShoreTex(int width, int height);
plMipmap* ICreateBubbleShoreTex(int width, int height);
void IRefillBubbleShoreTex();
plMipmap* ICreateEdgeShoreTex(int width, int height);
void IRefillEdgeShoreTex();
void ISetAsTexture(plLayer* lay, plBitmap* tex);
void ICreateGraphShoreLayer(hsGMaterial* mat, int iPass);
void ICreateGraphBubbleLayer(hsGMaterial* mat, int iPass);
void ICreateGraphEdgeLayer(hsGMaterial* mat, int iPass);
void ICreateGraphShoreMaterials();
plRenderTarget* ISetupGraphShoreRenderReq(int which);
void IMakeShoreLayer(hsGMaterial* mat, int which);
void ISetupShoreLayers(hsGMaterial* mat);
void ISetupGraphShore(hsGMaterial* mat);
void ICheckShoreMaterial(plSceneObject* so);
void ICheckShoreMaterials();
void ICheckDecalMaterial(plSceneObject* so);
void ICheckDecalMaterials();
void ISetupDecal(hsGMaterial* mat);
void ICheckDecalEnvLayers(hsGMaterial* mat);
void IAddGraphPShader(hsGMaterial* mat, int iPass);
void IAddGraphVShader(hsGMaterial* mat, int iPass);
void IUpdateGraphShader(float dt, int iPass);
void IInitGraph(int iPass);
void IShuffleDownGraphs(int iPass);
// type is either plLayRefMsg::kVertexShader or plLayRefMsg::kPixelShader.
void IAddShaderToLayers(hsGMaterial* mat, int iFirst, int iLast, uint8_t type, plShader* shader);
void IAddBumpPixelShader(hsGMaterial* mat, int iShader, int iFirst, int iLast);
void IAddBumpVertexShader(hsGMaterial* mat, int iShader, int iFirst, int iLast);
void IAddRipVertexShader(hsGMaterial* mat, const plRipVSConsts& ripConsts);
void IAddRipPixelShader(hsGMaterial* mat, const plRipVSConsts& ripConsts);
void IAddShoreVertexShader(hsGMaterial* mat);
void IAddShorePixelShader(hsGMaterial* mat);
void IAddFixedVertexShader(hsGMaterial* mat, const int numUVWs);
void IAddFixedPixelShader(hsGMaterial* mat);
plShader* IGetDecalPShader(hsGMaterial* mat);
plShader* ICreateDecalPShader(DecalPType t);
plShader* IGetDecalVShader(hsGMaterial* mat);
plShader* ICreateDecalVShader(DecalVType t);
void IUpdateShaders(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateBiasVShader();
void IUpdateBumpPShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateBumpVShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateRipPShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateRipVShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateShoreVShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateFixedVShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateFixedPShader(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
void IUpdateGraphShaders(plPipeline* pipe, float dt);
void IUpdateDecVShader(int t, plPipeline* pipe);
void IUpdateDecVShaders(plPipeline* pipe, const hsMatrix44& l2w, const hsMatrix44& w2l);
virtual int IShoreRef() const { return kRefShore; }
virtual int IDecalRef() const { return kRefDecal; }
inline void LogF(const char *format, ...) const;
inline void LogF(uint32_t color, const char *format, ...) const;
inline void IRestartLog() const;
inline void GraphLen(float len) const;
inline void IRestartGraph() const;
public:
plWaveSet7();
virtual ~plWaveSet7();
CLASSNAME_REGISTER( plWaveSet7 );
GETINTERFACE_ANY( plWaveSet7, plWaveSetBase );
13 years ago
virtual bool MsgReceive(plMessage* msg);
13 years ago
virtual bool IEval(double secs, float del, uint32_t dirty) { return false; }
int32_t GetNumProperties() const { return kNumProps; }
virtual void Read(hsStream* stream, hsResMgr* mgr);
virtual void Write(hsStream* stream, hsResMgr* mgr);
float EvalPoint(hsPoint3& pos, hsVector3& norm);
// Getters and Setters for Python twiddling
//
// First a way to set new values. The secs parameter says how long to take
// blending to the new value from the current value.
//
// Geometric wave parameters. These are all safe to twiddle at any time or speed.
// The new settings take effect as new waves are spawned.
void SetGeoMaxLength(float s, float secs=0) { fState.fGeoState.fMaxLength.Set(s, secs); }
void SetGeoMinLength(float s, float secs=0) { fState.fGeoState.fMinLength.Set(s, secs); }
void SetGeoAmpOverLen(float s, float secs=0) { fState.fGeoState.fAmpOverLen.Set(s, secs); }
void SetGeoChop(float s, float secs=0) { fState.fGeoState.fChop.Set(s, secs); }
void SetGeoAngleDev(float s, float secs=0) { fState.fGeoState.fAngleDev.Set(s, secs); }
// Texture wave parameters. Safe to twiddle any time or speed.
// The new settings take effect as new waves are spawned.
void SetTexMaxLength(float s, float secs=0) { fState.fTexState.fMaxLength.Set(s, secs); }
void SetTexMinLength(float s, float secs=0) { fState.fTexState.fMinLength.Set(s, secs); }
void SetTexAmpOverLen(float s, float secs=0) { fState.fTexState.fAmpOverLen.Set(s, secs); }
void SetTexChop(float s, float secs=0) { fState.fTexState.fChop.Set(s, secs); }
void SetTexAngleDev(float s, float secs=0) { fState.fTexState.fAngleDev.Set(s, secs); }
// The size in feet of one tile of the ripple texture. If you change this (I don't
// recommend it), you need to change it very slowly or it will look very stupid.
void SetRippleScale(float s, float secs=0) { fState.fRippleScale.Set(s, secs); }
// The direction the wind is blowing (waves will be more or less perpindicular to wind dir).
// Change somewhat slowly, like over 30 seconds.
void SetWindDir(const hsVector3& s, float secs=0) { fState.fWindDir.Set(s, secs); }
// Change these gently, effect is immediate.
void SetSpecularNoise(float s, float secs=0) { hsVector3 spec = fState.fSpecVec; spec[plFixedWaterState7::kNoise] = s; fState.fSpecVec.Set(spec, secs); }
void SetSpecularStart(float s, float secs=0) { hsVector3 spec = fState.fSpecVec; spec[plFixedWaterState7::kSpecStart] = s; fState.fSpecVec.Set(spec, secs); }
void SetSpecularEnd(float s, float secs=0) { hsVector3 spec = fState.fSpecVec; spec[plFixedWaterState7::kSpecEnd] = s; fState.fSpecVec.Set(spec, secs); }
// Water Height is overriden if the ref object is animated.
void SetWaterHeight(float s, float secs=0) { fState.fWaterHeight.Set(s, secs); }
// Water Offset and DepthFalloff are complicated, and not immediately interesting to animate.
void SetWaterOffset(const hsVector3& s, float secs=0) { fState.fWaterOffset.Set(s, secs); }
void SetOpacOffset(float s, float secs=0) { hsVector3 off = fState.fWaterOffset; off.fX = s; fState.fWaterOffset.Set(off, secs); }
void SetReflOffset(float s, float secs=0) { hsVector3 off = fState.fWaterOffset; off.fY = s; fState.fWaterOffset.Set(off, secs); }
void SetWaveOffset(float s, float secs=0) { hsVector3 off = fState.fWaterOffset; off.fZ = s; fState.fWaterOffset.Set(off, secs); }
void SetDepthFalloff(const hsVector3& s, float secs=0) { fState.fDepthFalloff.Set(s, secs); }
void SetOpacFalloff(float s, float secs=0) { hsVector3 off = fState.fDepthFalloff; off.fX = s; fState.fDepthFalloff.Set(off, secs); }
void SetReflFalloff(float s, float secs=0) { hsVector3 off = fState.fDepthFalloff; off.fY = s; fState.fDepthFalloff.Set(off, secs); }
void SetWaveFalloff(float s, float secs=0) { hsVector3 off = fState.fDepthFalloff; off.fZ = s; fState.fDepthFalloff.Set(off, secs); }
// Max and Min Atten aren't very interesting, and will probably go away.
void SetMaxAtten(const hsVector3& s, float secs=0) { fState.fMaxAtten.Set(s, secs); }
void SetMinAtten(const hsVector3& s, float secs=0) { fState.fMinAtten.Set(s, secs); }
// Skipping the shore parameters, because they are never used.
// Water colors, adjust slowly, effect is immediate.
void SetWaterTint(const hsColorRGBA& s, float secs=0) { fState.fWaterTint.Set(s, secs); }
void SetWaterRGB(const hsVector3& col, float secs=0) { hsColorRGBA rgb; rgb.Set(col.fX, col.fY, col.fZ, GetWaterOpacity()); SetWaterTint(rgb, secs); }
void SetWaterOpacity(float s, float secs=0) { hsColorRGBA col = GetWaterTint(); col.a = s; SetWaterTint(col, secs); }
void SetSpecularTint(const hsColorRGBA& s, float secs=0) { fState.fSpecularTint.Set(s, secs); }
void SetSpecularRGB(const hsVector3& col, float secs=0) { hsColorRGBA rgb; rgb.Set(col.fX, col.fY, col.fZ, GetSpecularMute()); SetSpecularTint(rgb, secs); }
void SetSpecularMute(float s, float secs=0) { hsColorRGBA col = GetSpecularTint(); col.a = s; SetSpecularTint(col, secs); }
// The environment map is essentially projected onto a sphere. Moving the center of
// the sphere north will move the reflections north, changing the radius of the
// sphere effects parallax in the obvious way.
void SetEnvCenter(const hsPoint3& s, float secs=0) { fState.fEnvCenter.Set(s, secs); }
void SetEnvRadius(float s, float secs=0) { fState.fEnvRadius.Set(s, secs); }
// Now a way to get current values. See the accompanying Setter for notes on
// what the parameter means.
//
float GetGeoMaxLength() const { return fState.fGeoState.fMaxLength; }
float GetGeoMinLength() const { return fState.fGeoState.fMinLength; }
float GetGeoAmpOverLen() const { return fState.fGeoState.fAmpOverLen; }
float GetGeoChop() const { return fState.fGeoState.fChop; }
float GetGeoAngleDev() const { return fState.fGeoState.fAngleDev; }
float GetTexMaxLength() const { return fState.fTexState.fMaxLength; }
float GetTexMinLength() const { return fState.fTexState.fMinLength; }
float GetTexAmpOverLen() const { return fState.fTexState.fAmpOverLen; }
float GetTexChop() const { return fState.fTexState.fChop; }
float GetTexAngleDev() const { return fState.fTexState.fAngleDev; }
float GetRippleScale() const { return fState.fRippleScale; }
hsVector3 GetWindDir() const { return fState.fWindDir; }
float GetSpecularNoise() const { hsVector3 spec = fState.fSpecVec; return spec[plFixedWaterState7::kNoise]; }
float GetSpecularStart() const { hsVector3 spec = fState.fSpecVec; return spec[plFixedWaterState7::kSpecStart]; }
float GetSpecularEnd() const { hsVector3 spec = fState.fSpecVec; return spec[plFixedWaterState7::kSpecEnd]; }
float GetWaterHeight() const { return fState.fWaterHeight; }
hsVector3 GetWaterOffset() const { return fState.fWaterOffset; }
float GetOpacOffset() const { hsVector3 off = fState.fWaterOffset; return off.fX; }
float GetReflOffset() const { hsVector3 off = fState.fWaterOffset; return off.fY; }
float GetWaveOffset() const { hsVector3 off = fState.fWaterOffset; return off.fZ; }
hsVector3 GetDepthFalloff() const { return fState.fDepthFalloff; }
float GetOpacFalloff() const { hsVector3 off = fState.fDepthFalloff; return off.fX; }
float GetReflFalloff() const { hsVector3 off = fState.fDepthFalloff; return off.fY; }
float GetWaveFalloff() const { hsVector3 off = fState.fDepthFalloff; return off.fZ; }
hsVector3 GetMaxAtten() const { return fState.fMaxAtten; }
hsVector3 GetMinAtten() const { return fState.fMinAtten; }
hsColorRGBA GetWaterTint() const { return fState.fWaterTint; }
hsVector3 GetWaterRGB() const { hsColorRGBA col = GetWaterTint(); return hsVector3(col.r, col.g, col.b); }
float GetWaterOpacity() const { return GetWaterTint().a; }
hsColorRGBA GetSpecularTint() const { return fState.fSpecularTint; }
hsVector3 GetSpecularRGB() const { hsColorRGBA col = GetSpecularTint(); return hsVector3(col.r, col.g, col.b); }
float GetSpecularMute() const { return GetSpecularTint().a; }
hsPoint3 GetEnvCenter() const { return fState.fEnvCenter; }
float GetEnvRadius() const { return fState.fEnvRadius; }
// Export/debugging functions. For runtime, use message interface (plGenRefMsg, plWaveMsg).
void AddTarget(const plKey& key);
void RemoveTarget(const plKey& key);
void AddShoreTest(plKey& key);
void SetRefObject(plSceneObject* refObj);
void SetSceneNode(const plKey& key);
plKey GetSceneNode() const { return fSceneNode; }
void AddDynaDecalMgr(plKey& key);
void RemoveDynaDecalMgr(plKey& key);
void AddBuoy(plKey soKey);
void RemoveBuoy(plKey soKey);
13 years ago
virtual bool SetupRippleMat(hsGMaterial* mat, const plRipVSConsts& ripConsts);
virtual float GetHeight() const { return State().fWaterHeight; }
const plFixedWaterState7::WaveState& GeoState() const { return State().fGeoState; }
const plFixedWaterState7::WaveState& TexState() const { return State().fTexState; }
const plFixedWaterState7& State() const { return fState; }
void SetState(const plFixedWaterState7& state, float dur);
void SetEnvSize(uint32_t s) { fEnvSize = s; }
uint32_t GetEnvSize() const { return fEnvSize; }
void StopLog();
void StartLog();
13 years ago
bool Logging() const { return fStatusLog != nil; }
void StartGraph();
void StopGraph();
13 years ago
bool Graphing() const { return fStatusGraph != nil; }
};
#endif // plWaveSet7_inc