// This code contains NVIDIA Confidential Information and is disclosed to you // under a form of NVIDIA software license agreement provided separately to you. // // Notice // NVIDIA Corporation and its licensors retain all intellectual property and // proprietary rights in and to this software and related documentation and // any modifications thereto. Any use, reproduction, disclosure, or // distribution of this software and related documentation without an express // license agreement from NVIDIA Corporation is strictly prohibited. // // ALL NVIDIA DESIGN SPECIFICATIONS, CODE ARE PROVIDED "AS IS.". NVIDIA MAKES // NO WARRANTIES, EXPRESSED, IMPLIED, STATUTORY, OR OTHERWISE WITH RESPECT TO // THE MATERIALS, AND EXPRESSLY DISCLAIMS ALL IMPLIED WARRANTIES OF NONINFRINGEMENT, // MERCHANTABILITY, AND FITNESS FOR A PARTICULAR PURPOSE. // // Information and code furnished is believed to be accurate and reliable. // However, NVIDIA Corporation assumes no responsibility for the consequences of use of such // information or for any infringement of patents or other rights of third parties that may // result from its use. No license is granted by implication or otherwise under any patent // or patent rights of NVIDIA Corporation. Details are subject to change without notice. // This code supersedes and replaces all information previously supplied. // NVIDIA Corporation products are not authorized for use as critical // components in life support devices or systems without express written approval of // NVIDIA Corporation. // // Copyright (c) 2008-2015 NVIDIA Corporation. All rights reserved. // This file was generated by NvParameterized/scripts/GenParameterized.pl #include "JetFieldSamplerEffect.h" #include #include using namespace NvParameterized; namespace nvidia { namespace particles { using namespace JetFieldSamplerEffectNS; const char* const JetFieldSamplerEffectFactory::vptr = NvParameterized::getVptr(); const uint32_t NumParamDefs = 32; static NvParameterized::DefinitionImpl* ParamDefTable; // now allocated in buildTree [NumParamDefs]; static const size_t ParamLookupChildrenTable[] = { 1, 31, 2, 3, 4, 8, 12, 13, 14, 15, 16, 17, 5, 6, 7, 9, 10, 11, 18, 19, 20, 21, 23, 27, 22, 24, 25, 26, 28, 29, 30, }; #define TENUM(type) nvidia::##type #define CHILDREN(index) &ParamLookupChildrenTable[index] static const NvParameterized::ParamLookupNode ParamLookupTable[NumParamDefs] = { { TYPE_STRUCT, false, 0, CHILDREN(0), 2 }, { TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->EffectProperties), CHILDREN(2), 10 }, // EffectProperties { TYPE_STRING, false, (size_t)(&((EffectProperties_Type*)0)->UserString), NULL, 0 }, // EffectProperties.UserString { TYPE_BOOL, false, (size_t)(&((EffectProperties_Type*)0)->Enable), NULL, 0 }, // EffectProperties.Enable { TYPE_STRUCT, false, (size_t)(&((EffectProperties_Type*)0)->Position), CHILDREN(12), 3 }, // EffectProperties.Position { TYPE_F32, false, (size_t)(&((TranslateObject_Type*)0)->TranslateX), NULL, 0 }, // EffectProperties.Position.TranslateX { TYPE_F32, false, (size_t)(&((TranslateObject_Type*)0)->TranslateY), NULL, 0 }, // EffectProperties.Position.TranslateY { TYPE_F32, false, (size_t)(&((TranslateObject_Type*)0)->TranslateZ), NULL, 0 }, // EffectProperties.Position.TranslateZ { TYPE_STRUCT, false, (size_t)(&((EffectProperties_Type*)0)->Orientation), CHILDREN(15), 3 }, // EffectProperties.Orientation { TYPE_F32, false, (size_t)(&((OrientObject_Type*)0)->RotateX), NULL, 0 }, // EffectProperties.Orientation.RotateX { TYPE_F32, false, (size_t)(&((OrientObject_Type*)0)->RotateY), NULL, 0 }, // EffectProperties.Orientation.RotateY { TYPE_F32, false, (size_t)(&((OrientObject_Type*)0)->RotateZ), NULL, 0 }, // EffectProperties.Orientation.RotateZ { TYPE_F32, false, (size_t)(&((EffectProperties_Type*)0)->InitialDelayTime), NULL, 0 }, // EffectProperties.InitialDelayTime { TYPE_F32, false, (size_t)(&((EffectProperties_Type*)0)->Duration), NULL, 0 }, // EffectProperties.Duration { TYPE_U32, false, (size_t)(&((EffectProperties_Type*)0)->RepeatCount), NULL, 0 }, // EffectProperties.RepeatCount { TYPE_F32, false, (size_t)(&((EffectProperties_Type*)0)->RepeatDelay), NULL, 0 }, // EffectProperties.RepeatDelay { TYPE_F32, false, (size_t)(&((EffectProperties_Type*)0)->RandomizeRepeatTime), NULL, 0 }, // EffectProperties.RandomizeRepeatTime { TYPE_STRUCT, false, (size_t)(&((EffectProperties_Type*)0)->Path), CHILDREN(18), 6 }, // EffectProperties.Path { TYPE_ENUM, false, (size_t)(&((EffectPath_Type*)0)->PlaybackMode), NULL, 0 }, // EffectProperties.Path.PlaybackMode { TYPE_F32, false, (size_t)(&((EffectPath_Type*)0)->PathDuration), NULL, 0 }, // EffectProperties.Path.PathDuration { TYPE_U32, false, (size_t)(&((EffectPath_Type*)0)->LoopIndex), NULL, 0 }, // EffectProperties.Path.LoopIndex { TYPE_ARRAY, true, (size_t)(&((EffectPath_Type*)0)->ControlPoints), CHILDREN(24), 1 }, // EffectProperties.Path.ControlPoints { TYPE_TRANSFORM, false, 1 * sizeof(physx::PxTransform), NULL, 0 }, // EffectProperties.Path.ControlPoints[] { TYPE_ARRAY, true, (size_t)(&((EffectPath_Type*)0)->Scale), CHILDREN(25), 1 }, // EffectProperties.Path.Scale { TYPE_STRUCT, false, 1 * sizeof(ControlPoint_Type), CHILDREN(26), 2 }, // EffectProperties.Path.Scale[] { TYPE_F32, false, (size_t)(&((ControlPoint_Type*)0)->x), NULL, 0 }, // EffectProperties.Path.Scale[].x { TYPE_F32, false, (size_t)(&((ControlPoint_Type*)0)->y), NULL, 0 }, // EffectProperties.Path.Scale[].y { TYPE_ARRAY, true, (size_t)(&((EffectPath_Type*)0)->Speed), CHILDREN(28), 1 }, // EffectProperties.Path.Speed { TYPE_STRUCT, false, 1 * sizeof(ControlPoint_Type), CHILDREN(29), 2 }, // EffectProperties.Path.Speed[] { TYPE_F32, false, (size_t)(&((ControlPoint_Type*)0)->x), NULL, 0 }, // EffectProperties.Path.Speed[].x { TYPE_F32, false, (size_t)(&((ControlPoint_Type*)0)->y), NULL, 0 }, // EffectProperties.Path.Speed[].y { TYPE_REF, false, (size_t)(&((ParametersStruct*)0)->JetFieldSampler), NULL, 0 }, // JetFieldSampler }; bool JetFieldSamplerEffect::mBuiltFlag = false; NvParameterized::MutexType JetFieldSamplerEffect::mBuiltFlagMutex; JetFieldSamplerEffect::JetFieldSamplerEffect(NvParameterized::Traits* traits, void* buf, int32_t* refCount) : NvParameters(traits, buf, refCount) { //mParameterizedTraits->registerFactory(className(), &JetFieldSamplerEffectFactoryInst); if (!buf) //Do not init data if it is inplace-deserialized { initDynamicArrays(); initStrings(); initReferences(); initDefaults(); } } JetFieldSamplerEffect::~JetFieldSamplerEffect() { freeStrings(); freeReferences(); freeDynamicArrays(); } void JetFieldSamplerEffect::destroy() { // We cache these fields here to avoid overwrite in destructor bool doDeallocateSelf = mDoDeallocateSelf; NvParameterized::Traits* traits = mParameterizedTraits; int32_t* refCount = mRefCount; void* buf = mBuffer; this->~JetFieldSamplerEffect(); NvParameters::destroy(this, traits, doDeallocateSelf, refCount, buf); } const NvParameterized::DefinitionImpl* JetFieldSamplerEffect::getParameterDefinitionTree(void) { if (!mBuiltFlag) // Double-checked lock { NvParameterized::MutexType::ScopedLock lock(mBuiltFlagMutex); if (!mBuiltFlag) { buildTree(); } } return(&ParamDefTable[0]); } const NvParameterized::DefinitionImpl* JetFieldSamplerEffect::getParameterDefinitionTree(void) const { JetFieldSamplerEffect* tmpParam = const_cast(this); if (!mBuiltFlag) // Double-checked lock { NvParameterized::MutexType::ScopedLock lock(mBuiltFlagMutex); if (!mBuiltFlag) { tmpParam->buildTree(); } } return(&ParamDefTable[0]); } NvParameterized::ErrorType JetFieldSamplerEffect::getParameterHandle(const char* long_name, Handle& handle) const { ErrorType Ret = NvParameters::getParameterHandle(long_name, handle); if (Ret != ERROR_NONE) { return(Ret); } size_t offset; void* ptr; getVarPtr(handle, ptr, offset); if (ptr == NULL) { return(ERROR_INDEX_OUT_OF_RANGE); } return(ERROR_NONE); } NvParameterized::ErrorType JetFieldSamplerEffect::getParameterHandle(const char* long_name, Handle& handle) { ErrorType Ret = NvParameters::getParameterHandle(long_name, handle); if (Ret != ERROR_NONE) { return(Ret); } size_t offset; void* ptr; getVarPtr(handle, ptr, offset); if (ptr == NULL) { return(ERROR_INDEX_OUT_OF_RANGE); } return(ERROR_NONE); } void JetFieldSamplerEffect::getVarPtr(const Handle& handle, void*& ptr, size_t& offset) const { ptr = getVarPtrHelper(&ParamLookupTable[0], const_cast(¶meters()), handle, offset); } /* Dynamic Handle Indices */ void JetFieldSamplerEffect::freeParameterDefinitionTable(NvParameterized::Traits* traits) { if (!traits) { return; } if (!mBuiltFlag) // Double-checked lock { return; } NvParameterized::MutexType::ScopedLock lock(mBuiltFlagMutex); if (!mBuiltFlag) { return; } for (uint32_t i = 0; i < NumParamDefs; ++i) { ParamDefTable[i].~DefinitionImpl(); } traits->free(ParamDefTable); mBuiltFlag = false; } #define PDEF_PTR(index) (&ParamDefTable[index]) void JetFieldSamplerEffect::buildTree(void) { uint32_t allocSize = sizeof(NvParameterized::DefinitionImpl) * NumParamDefs; ParamDefTable = (NvParameterized::DefinitionImpl*)(mParameterizedTraits->alloc(allocSize)); memset(ParamDefTable, 0, allocSize); for (uint32_t i = 0; i < NumParamDefs; ++i) { NV_PARAM_PLACEMENT_NEW(ParamDefTable + i, NvParameterized::DefinitionImpl)(*mParameterizedTraits); } // Initialize DefinitionImpl node: nodeIndex=0, longName="" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[0]; ParamDef->init("", TYPE_STRUCT, "STRUCT", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "A jet field sampler effect", true); ParamDefTable[0].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=1, longName="EffectProperties" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[1]; ParamDef->init("EffectProperties", TYPE_STRUCT, "EffectProperties", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("READONLY", uint64_t(0), true); ParamDefTable[1].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #else static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("shortDescription", "Jet FS Properties", true); ParamDefTable[1].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=2, longName="EffectProperties.UserString" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[2]; ParamDef->init("UserString", TYPE_STRING, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "An aribtrary user string that can be set by an artist/designer/programmer", true); ParamDefTable[2].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=3, longName="EffectProperties.Enable" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[3]; ParamDef->init("Enable", TYPE_BOOL, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "Whether or not this effect is to be initially enabled on startup", true); ParamDefTable[3].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=4, longName="EffectProperties.Position" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[4]; ParamDef->init("Position", TYPE_STRUCT, "TranslateObject", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "The position of this effect relative to the parent", true); ParamDefTable[4].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=5, longName="EffectProperties.Position.TranslateX" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[5]; ParamDef->init("TranslateX", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(500.000000000), true); HintTable[2].init("min", double(-500.000000000), true); ParamDefTable[5].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(500.000000000), true); HintTable[2].init("min", double(-500.000000000), true); HintTable[3].init("shortDescription", "Nudge up to +/- one meter in each direction", true); ParamDefTable[5].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=6, longName="EffectProperties.Position.TranslateY" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[6]; ParamDef->init("TranslateY", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(500.000000000), true); HintTable[2].init("min", double(-500.000000000), true); ParamDefTable[6].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(500.000000000), true); HintTable[2].init("min", double(-500.000000000), true); HintTable[3].init("shortDescription", "Nudge up to +/- one meter in each direction", true); ParamDefTable[6].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=7, longName="EffectProperties.Position.TranslateZ" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[7]; ParamDef->init("TranslateZ", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(500.000000000), true); HintTable[2].init("min", double(-500.000000000), true); ParamDefTable[7].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(500.000000000), true); HintTable[2].init("min", double(-500.000000000), true); HintTable[3].init("shortDescription", "Nudge up to +/- one meter in each direction", true); ParamDefTable[7].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=8, longName="EffectProperties.Orientation" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[8]; ParamDef->init("Orientation", TYPE_STRUCT, "OrientObject", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "The orientation of this effect, relative to the parent orientation", true); ParamDefTable[8].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=9, longName="EffectProperties.Orientation.RotateX" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[9]; ParamDef->init("RotateX", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(360.000000000), true); HintTable[2].init("min", double(0.000000000), true); ParamDefTable[9].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(360.000000000), true); HintTable[2].init("min", double(0.000000000), true); HintTable[3].init("shortDescription", "Rotate on the X axis (0-360 degrees)", true); ParamDefTable[9].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=10, longName="EffectProperties.Orientation.RotateY" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[10]; ParamDef->init("RotateY", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(360.000000000), true); HintTable[2].init("min", double(0.000000000), true); ParamDefTable[10].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(360.000000000), true); HintTable[2].init("min", double(0.000000000), true); HintTable[3].init("shortDescription", "Rotate on the Y axis (0-360 degrees)", true); ParamDefTable[10].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=11, longName="EffectProperties.Orientation.RotateZ" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[11]; ParamDef->init("RotateZ", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(360.000000000), true); HintTable[2].init("min", double(0.000000000), true); ParamDefTable[11].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("READONLY", uint64_t(0), true); HintTable[1].init("max", double(360.000000000), true); HintTable[2].init("min", double(0.000000000), true); HintTable[3].init("shortDescription", "Rotate on the Z axis (0-360 degrees)", true); ParamDefTable[11].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=12, longName="EffectProperties.InitialDelayTime" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[12]; ParamDef->init("InitialDelayTime", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("min", double(0.000000000), true); ParamDefTable[12].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #else static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("min", double(0.000000000), true); HintTable[1].init("shortDescription", "Initial time to delay before spawning this effect", true); ParamDefTable[12].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=13, longName="EffectProperties.Duration" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[13]; ParamDef->init("Duration", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("min", double(0.000000000), true); ParamDefTable[13].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #else static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("min", double(0.000000000), true); HintTable[1].init("shortDescription", "The duration of the effect in secontds", true); ParamDefTable[13].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=14, longName="EffectProperties.RepeatCount" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[14]; ParamDef->init("RepeatCount", TYPE_U32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("min", uint64_t(1), true); ParamDefTable[14].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #else static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("min", uint64_t(1), true); HintTable[1].init("shortDescription", "The number of times to repeat the effect; 9999 means repeate forever", true); ParamDefTable[14].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=15, longName="EffectProperties.RepeatDelay" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[15]; ParamDef->init("RepeatDelay", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("min", double(0.000000000), true); ParamDefTable[15].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #else static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("min", double(0.000000000), true); HintTable[1].init("shortDescription", "The time to delay activation each time the effect repeats in seconds; this can be different than the initial delay time", true); ParamDefTable[15].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=16, longName="EffectProperties.RandomizeRepeatTime" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[16]; ParamDef->init("RandomizeRepeatTime", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("max", double(1.000000000), true); HintTable[1].init("min", double(0.000000000), true); ParamDefTable[16].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #else static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("max", double(1.000000000), true); HintTable[1].init("min", double(0.000000000), true); HintTable[2].init("shortDescription", "Amount of randomization to the repeat cycle; a value of zero (default) means no random and a value of one means completely random.", true); ParamDefTable[16].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=17, longName="EffectProperties.Path" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[17]; ParamDef->init("Path", TYPE_STRUCT, "EffectPath", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "An optional pre-defined path for this effect to travel on", true); ParamDefTable[17].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=18, longName="EffectProperties.Path.PlaybackMode" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[18]; ParamDef->init("PlaybackMode", TYPE_ENUM, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "The mode to play back the path", true); ParamDefTable[18].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ static const char* const EnumVals[] = { "LOOP", "PLAY_ONCE", "PING_PONG" }; ParamDefTable[18].setEnumVals((const char**)EnumVals, 3); } // Initialize DefinitionImpl node: nodeIndex=19, longName="EffectProperties.Path.PathDuration" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[19]; ParamDef->init("PathDuration", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("max", double(1000.000000000), true); HintTable[1].init("min", double(0.000010000), true); ParamDefTable[19].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #else static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("max", double(1000.000000000), true); HintTable[1].init("min", double(0.000010000), true); HintTable[2].init("shortDescription", "The duration of the path if one is not otherwise provided", true); ParamDefTable[19].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=20, longName="EffectProperties.Path.LoopIndex" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[20]; ParamDef->init("LoopIndex", TYPE_U32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("min", uint64_t(0), true); ParamDefTable[20].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #else static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("min", uint64_t(0), true); HintTable[1].init("shortDescription", "The array index to loop back to", true); ParamDefTable[20].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=21, longName="EffectProperties.Path.ControlPoints" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[21]; ParamDef->init("ControlPoints", TYPE_ARRAY, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("editorCurve", uint64_t(1), true); HintTable[2].init("pathEditor", uint64_t(1), true); ParamDefTable[21].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("editorCurve", uint64_t(1), true); HintTable[2].init("pathEditor", uint64_t(1), true); HintTable[3].init("shortDescription", "The array of control points to fit the curve to", true); ParamDefTable[21].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ ParamDef->setArraySize(-1); } // Initialize DefinitionImpl node: nodeIndex=22, longName="EffectProperties.Path.ControlPoints[]" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[22]; ParamDef->init("ControlPoints", TYPE_TRANSFORM, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("editorCurve", uint64_t(1), true); HintTable[2].init("pathEditor", uint64_t(1), true); ParamDefTable[22].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #else static HintImpl HintTable[4]; static Hint* HintPtrTable[4] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("editorCurve", uint64_t(1), true); HintTable[2].init("pathEditor", uint64_t(1), true); HintTable[3].init("shortDescription", "The array of control points to fit the curve to", true); ParamDefTable[22].setHints((const NvParameterized::Hint**)HintPtrTable, 4); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=23, longName="EffectProperties.Path.Scale" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[23]; ParamDef->init("Scale", TYPE_ARRAY, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[5]; static Hint* HintPtrTable[5] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("xAxisLabel", "Over Time", true); HintTable[4].init("yAxisLabel", "Scale", true); ParamDefTable[23].setHints((const NvParameterized::Hint**)HintPtrTable, 5); #else static HintImpl HintTable[6]; static Hint* HintPtrTable[6] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], &HintTable[5], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("shortDescription", "The array of scale values over time", true); HintTable[4].init("xAxisLabel", "Over Time", true); HintTable[5].init("yAxisLabel", "Scale", true); ParamDefTable[23].setHints((const NvParameterized::Hint**)HintPtrTable, 6); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ ParamDef->setArraySize(-1); } // Initialize DefinitionImpl node: nodeIndex=24, longName="EffectProperties.Path.Scale[]" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[24]; ParamDef->init("Scale", TYPE_STRUCT, "ControlPoint", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[5]; static Hint* HintPtrTable[5] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("xAxisLabel", "Over Time", true); HintTable[4].init("yAxisLabel", "Scale", true); ParamDefTable[24].setHints((const NvParameterized::Hint**)HintPtrTable, 5); #else static HintImpl HintTable[6]; static Hint* HintPtrTable[6] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], &HintTable[5], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("shortDescription", "The array of scale values over time", true); HintTable[4].init("xAxisLabel", "Over Time", true); HintTable[5].init("yAxisLabel", "Scale", true); ParamDefTable[24].setHints((const NvParameterized::Hint**)HintPtrTable, 6); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=25, longName="EffectProperties.Path.Scale[].x" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[25]; ParamDef->init("x", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("max", double(1.000000000), true); HintTable[1].init("min", double(0.000000000), true); ParamDefTable[25].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #else static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("max", double(1.000000000), true); HintTable[1].init("min", double(0.000000000), true); HintTable[2].init("shortDescription", "The x-axis value for this vector", true); ParamDefTable[25].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=26, longName="EffectProperties.Path.Scale[].y" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[26]; ParamDef->init("y", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "The y-axis value for this vector", true); ParamDefTable[26].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=27, longName="EffectProperties.Path.Speed" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[27]; ParamDef->init("Speed", TYPE_ARRAY, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[5]; static Hint* HintPtrTable[5] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("xAxisLabel", "Over Time", true); HintTable[4].init("yAxisLabel", "Speed", true); ParamDefTable[27].setHints((const NvParameterized::Hint**)HintPtrTable, 5); #else static HintImpl HintTable[6]; static Hint* HintPtrTable[6] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], &HintTable[5], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("shortDescription", "The array of speed values over time", true); HintTable[4].init("xAxisLabel", "Over Time", true); HintTable[5].init("yAxisLabel", "Speed", true); ParamDefTable[27].setHints((const NvParameterized::Hint**)HintPtrTable, 6); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ ParamDef->setArraySize(-1); } // Initialize DefinitionImpl node: nodeIndex=28, longName="EffectProperties.Path.Speed[]" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[28]; ParamDef->init("Speed", TYPE_STRUCT, "ControlPoint", true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[5]; static Hint* HintPtrTable[5] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("xAxisLabel", "Over Time", true); HintTable[4].init("yAxisLabel", "Speed", true); ParamDefTable[28].setHints((const NvParameterized::Hint**)HintPtrTable, 5); #else static HintImpl HintTable[6]; static Hint* HintPtrTable[6] = { &HintTable[0], &HintTable[1], &HintTable[2], &HintTable[3], &HintTable[4], &HintTable[5], }; HintTable[0].init("RIGHT_CLICK", "COPY_PATH PASTE_PATH CLEAR_PATH", true); HintTable[1].init("UseSpline", uint64_t(1), true); HintTable[2].init("editorCurve", uint64_t(1), true); HintTable[3].init("shortDescription", "The array of speed values over time", true); HintTable[4].init("xAxisLabel", "Over Time", true); HintTable[5].init("yAxisLabel", "Speed", true); ParamDefTable[28].setHints((const NvParameterized::Hint**)HintPtrTable, 6); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=29, longName="EffectProperties.Path.Speed[].x" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[29]; ParamDef->init("x", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS static HintImpl HintTable[2]; static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], }; HintTable[0].init("max", double(1.000000000), true); HintTable[1].init("min", double(0.000000000), true); ParamDefTable[29].setHints((const NvParameterized::Hint**)HintPtrTable, 2); #else static HintImpl HintTable[3]; static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], }; HintTable[0].init("max", double(1.000000000), true); HintTable[1].init("min", double(0.000000000), true); HintTable[2].init("shortDescription", "The x-axis value for this vector", true); ParamDefTable[29].setHints((const NvParameterized::Hint**)HintPtrTable, 3); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=30, longName="EffectProperties.Path.Speed[].y" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[30]; ParamDef->init("y", TYPE_F32, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "The y-axis value for this vector", true); ParamDefTable[30].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ } // Initialize DefinitionImpl node: nodeIndex=31, longName="JetFieldSampler" { NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[31]; ParamDef->init("JetFieldSampler", TYPE_REF, NULL, true); #ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS #else static HintImpl HintTable[1]; static Hint* HintPtrTable[1] = { &HintTable[0], }; HintTable[0].init("shortDescription", "Jet FS Asset", true); ParamDefTable[31].setHints((const NvParameterized::Hint**)HintPtrTable, 1); #endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */ static const char* const RefVariantVals[] = { "JetFSAsset" }; ParamDefTable[31].setRefVariantVals((const char**)RefVariantVals, 1); } // SetChildren for: nodeIndex=0, longName="" { static Definition* Children[2]; Children[0] = PDEF_PTR(1); Children[1] = PDEF_PTR(31); ParamDefTable[0].setChildren(Children, 2); } // SetChildren for: nodeIndex=1, longName="EffectProperties" { static Definition* Children[10]; Children[0] = PDEF_PTR(2); Children[1] = PDEF_PTR(3); Children[2] = PDEF_PTR(4); Children[3] = PDEF_PTR(8); Children[4] = PDEF_PTR(12); Children[5] = PDEF_PTR(13); Children[6] = PDEF_PTR(14); Children[7] = PDEF_PTR(15); Children[8] = PDEF_PTR(16); Children[9] = PDEF_PTR(17); ParamDefTable[1].setChildren(Children, 10); } // SetChildren for: nodeIndex=4, longName="EffectProperties.Position" { static Definition* Children[3]; Children[0] = PDEF_PTR(5); Children[1] = PDEF_PTR(6); Children[2] = PDEF_PTR(7); ParamDefTable[4].setChildren(Children, 3); } // SetChildren for: nodeIndex=8, longName="EffectProperties.Orientation" { static Definition* Children[3]; Children[0] = PDEF_PTR(9); Children[1] = PDEF_PTR(10); Children[2] = PDEF_PTR(11); ParamDefTable[8].setChildren(Children, 3); } // SetChildren for: nodeIndex=17, longName="EffectProperties.Path" { static Definition* Children[6]; Children[0] = PDEF_PTR(18); Children[1] = PDEF_PTR(19); Children[2] = PDEF_PTR(20); Children[3] = PDEF_PTR(21); Children[4] = PDEF_PTR(23); Children[5] = PDEF_PTR(27); ParamDefTable[17].setChildren(Children, 6); } // SetChildren for: nodeIndex=21, longName="EffectProperties.Path.ControlPoints" { static Definition* Children[1]; Children[0] = PDEF_PTR(22); ParamDefTable[21].setChildren(Children, 1); } // SetChildren for: nodeIndex=23, longName="EffectProperties.Path.Scale" { static Definition* Children[1]; Children[0] = PDEF_PTR(24); ParamDefTable[23].setChildren(Children, 1); } // SetChildren for: nodeIndex=24, longName="EffectProperties.Path.Scale[]" { static Definition* Children[2]; Children[0] = PDEF_PTR(25); Children[1] = PDEF_PTR(26); ParamDefTable[24].setChildren(Children, 2); } // SetChildren for: nodeIndex=27, longName="EffectProperties.Path.Speed" { static Definition* Children[1]; Children[0] = PDEF_PTR(28); ParamDefTable[27].setChildren(Children, 1); } // SetChildren for: nodeIndex=28, longName="EffectProperties.Path.Speed[]" { static Definition* Children[2]; Children[0] = PDEF_PTR(29); Children[1] = PDEF_PTR(30); ParamDefTable[28].setChildren(Children, 2); } mBuiltFlag = true; } void JetFieldSamplerEffect::initStrings(void) { EffectProperties.UserString.isAllocated = true; EffectProperties.UserString.buf = NULL; } void JetFieldSamplerEffect::initDynamicArrays(void) { EffectProperties.Path.ControlPoints.buf = NULL; EffectProperties.Path.ControlPoints.isAllocated = true; EffectProperties.Path.ControlPoints.elementSize = sizeof(physx::PxTransform); EffectProperties.Path.ControlPoints.arraySizes[0] = 0; EffectProperties.Path.Scale.buf = NULL; EffectProperties.Path.Scale.isAllocated = true; EffectProperties.Path.Scale.elementSize = sizeof(ControlPoint_Type); EffectProperties.Path.Scale.arraySizes[0] = 0; EffectProperties.Path.Speed.buf = NULL; EffectProperties.Path.Speed.isAllocated = true; EffectProperties.Path.Speed.elementSize = sizeof(ControlPoint_Type); EffectProperties.Path.Speed.arraySizes[0] = 0; } void JetFieldSamplerEffect::initDefaults(void) { freeStrings(); freeReferences(); freeDynamicArrays(); EffectProperties.Enable = bool(1); EffectProperties.Position.TranslateX = float(0.000000000); EffectProperties.Position.TranslateY = float(0.000000000); EffectProperties.Position.TranslateZ = float(0.000000000); EffectProperties.Orientation.RotateX = float(0.000000000); EffectProperties.Orientation.RotateY = float(0.000000000); EffectProperties.Orientation.RotateZ = float(0.000000000); EffectProperties.InitialDelayTime = float(0.000000000); EffectProperties.Duration = float(0.000000000); EffectProperties.RepeatCount = uint32_t(1); EffectProperties.RepeatDelay = float(0.000000000); EffectProperties.RandomizeRepeatTime = float(0.000000000); EffectProperties.Path.PlaybackMode = (const char*)"LOOP"; EffectProperties.Path.PathDuration = float(4.000000000); EffectProperties.Path.LoopIndex = uint32_t(0); initDynamicArrays(); initStrings(); initReferences(); } void JetFieldSamplerEffect::initReferences(void) { JetFieldSampler = NULL; } void JetFieldSamplerEffect::freeDynamicArrays(void) { if (EffectProperties.Path.ControlPoints.isAllocated && EffectProperties.Path.ControlPoints.buf) { mParameterizedTraits->free(EffectProperties.Path.ControlPoints.buf); } if (EffectProperties.Path.Scale.isAllocated && EffectProperties.Path.Scale.buf) { mParameterizedTraits->free(EffectProperties.Path.Scale.buf); } if (EffectProperties.Path.Speed.isAllocated && EffectProperties.Path.Speed.buf) { mParameterizedTraits->free(EffectProperties.Path.Speed.buf); } } void JetFieldSamplerEffect::freeStrings(void) { if (EffectProperties.UserString.isAllocated && EffectProperties.UserString.buf) { mParameterizedTraits->strfree((char*)EffectProperties.UserString.buf); } } void JetFieldSamplerEffect::freeReferences(void) { if (JetFieldSampler) { JetFieldSampler->destroy(); } } } // namespace particles } // namespace nvidia