//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~~// // Arcane-FX for MIT Licensed Open Source version of Torque 3D from GarageGames // Copyright (C) 2015 Faust Logic, Inc. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS // IN THE SOFTWARE. // //~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~~// #include "afx/arcaneFX.h" #include "math/mathIO.h" #include "math/mathUtils.h" #include "afx/afxEffectWrapper.h" #include "afx/afxChoreographer.h" #include "afx/xm/afxXfmMod.h" #include "afx/util/afxPath3D.h" #include "afx/util/afxPath.h" //~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~~// class afxXM_ScaleData : public afxXM_WeightedBaseData { typedef afxXM_WeightedBaseData Parent; public: Point3F scale; public: /*C*/ afxXM_ScaleData(); /*C*/ afxXM_ScaleData(const afxXM_ScaleData&, bool = false); void packData(BitStream* stream); void unpackData(BitStream* stream); virtual bool allowSubstitutions() const { return true; } static void initPersistFields(); afxXM_Base* create(afxEffectWrapper* fx, bool on_server); DECLARE_CONOBJECT(afxXM_ScaleData); DECLARE_CATEGORY("AFX"); }; //~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~// class afxXM_Scale_weighted : public afxXM_WeightedBase { typedef afxXM_WeightedBase Parent; Point3F xm_scale; public: /*C*/ afxXM_Scale_weighted(afxXM_ScaleData*, afxEffectWrapper*); virtual void updateParams(F32 dt, F32 elapsed, afxXM_Params& params); }; //~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~~// IMPLEMENT_CO_DATABLOCK_V1(afxXM_ScaleData); ConsoleDocClass( afxXM_ScaleData, "@brief An xmod datablock.\n\n" "@ingroup afxXMods\n" "@ingroup AFX\n" "@ingroup Datablocks\n" ); afxXM_ScaleData::afxXM_ScaleData() { scale.set(0,0,0); } afxXM_ScaleData::afxXM_ScaleData(const afxXM_ScaleData& other, bool temp_clone) : afxXM_WeightedBaseData(other, temp_clone) { scale = other.scale; } void afxXM_ScaleData::initPersistFields() { addField("scale", TypePoint3F, Offset(scale, afxXM_ScaleData), "..."); Parent::initPersistFields(); } void afxXM_ScaleData::packData(BitStream* stream) { Parent::packData(stream); mathWrite(*stream, scale); } void afxXM_ScaleData::unpackData(BitStream* stream) { Parent::unpackData(stream); mathRead(*stream, &scale); } afxXM_Base* afxXM_ScaleData::create(afxEffectWrapper* fx, bool on_server) { afxXM_ScaleData* datablock = this; if (getSubstitutionCount() > 0) { datablock = new afxXM_ScaleData(*this, true); this->performSubstitutions(datablock, fx->getChoreographer(), fx->getGroupIndex()); } if (datablock->hasFixedWeight()) return new afxXM_Scale_weighted(datablock, fx); else return new afxXM_Scale_weighted(datablock, fx); } //~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~// afxXM_Scale_weighted::afxXM_Scale_weighted(afxXM_ScaleData* db, afxEffectWrapper* fxw) : afxXM_WeightedBase(db, fxw) { xm_scale = db->scale; } void afxXM_Scale_weighted::updateParams(F32 dt, F32 elapsed, afxXM_Params& params) { F32 wt_factor = calc_weight_factor(elapsed); params.scale += xm_scale*wt_factor; if (params.scale.x < 0.00001f) params.scale.x = 0.00001f; if (params.scale.y < 0.00001f) params.scale.y = 0.00001f; if (params.scale.z < 0.00001f) params.scale.z = 0.00001f; } //~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~//~~~~~~~~~~~~~~~~~~~~~//