text
stringlengths 1
22.8M
|
|---|
```c++
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of NVIDIA CORPORATION nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
// OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// This file was generated by NvParameterized/scripts/GenParameterized.pl
#include "ClothingActorParam_0p9.h"
#include <string.h>
#include <stdlib.h>
using namespace NvParameterized;
namespace nvidia
{
namespace parameterized
{
using namespace ClothingActorParam_0p9NS;
const char* const ClothingActorParam_0p9Factory::vptr =
NvParameterized::getVptr<ClothingActorParam_0p9, ClothingActorParam_0p9::ClassAlignment>();
const uint32_t NumParamDefs = 72;
static NvParameterized::DefinitionImpl* ParamDefTable; // now allocated in buildTree [NumParamDefs];
static const size_t ParamLookupChildrenTable[] =
{
1, 2, 3, 8, 9, 10, 11, 12, 13, 14, 15, 20, 23, 26, 27, 29, 40, 56, 59, 60, 61, 63,
65, 66, 67, 68, 69, 70, 4, 5, 6, 7, 16, 17, 18, 19, 21, 22, 24, 25, 28, 30, 31, 32,
37, 38, 39, 33, 34, 35, 36, 41, 47, 48, 53, 54, 55, 42, 43, 44, 45, 46, 49, 50, 51,
52, 57, 58, 62, 64, 71,
};
#define TENUM(type) nvidia::##type
#define CHILDREN(index) &ParamLookupChildrenTable[index]
static const NvParameterized::ParamLookupNode ParamLookupTable[NumParamDefs] =
{
{ TYPE_STRUCT, false, 0, CHILDREN(0), 28 },
{ TYPE_MAT44, false, (size_t)(&((ParametersStruct*)0)->globalPose), NULL, 0 }, // globalPose
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->useHardwareCloth), NULL, 0 }, // useHardwareCloth
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->flags), CHILDREN(28), 4 }, // flags
{ TYPE_BOOL, false, (size_t)(&((ClothingActorFlags_Type*)0)->ParallelCpuSkinning), NULL, 0 }, // flags.ParallelCpuSkinning
{ TYPE_BOOL, false, (size_t)(&((ClothingActorFlags_Type*)0)->RecomputeNormals), NULL, 0 }, // flags.RecomputeNormals
{ TYPE_BOOL, false, (size_t)(&((ClothingActorFlags_Type*)0)->Visualize), NULL, 0 }, // flags.Visualize
{ TYPE_BOOL, false, (size_t)(&((ClothingActorFlags_Type*)0)->CorrectSimulationNormals), NULL, 0 }, // flags.CorrectSimulationNormals
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->fallbackSkinning), NULL, 0 }, // fallbackSkinning
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->slowStart), NULL, 0 }, // slowStart
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->useInternalBoneOrder), NULL, 0 }, // useInternalBoneOrder
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->updateStateWithGlobalMatrices), NULL, 0 }, // updateStateWithGlobalMatrices
{ TYPE_U32, false, (size_t)(&((ParametersStruct*)0)->uvChannelForTangentUpdate), NULL, 0 }, // uvChannelForTangentUpdate
{ TYPE_F32, false, (size_t)(&((ParametersStruct*)0)->maxDistanceBlendTime), NULL, 0 }, // maxDistanceBlendTime
{ TYPE_U32, false, (size_t)(&((ParametersStruct*)0)->clothingMaterialIndex), NULL, 0 }, // clothingMaterialIndex
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->lodWeights), CHILDREN(32), 4 }, // lodWeights
{ TYPE_F32, false, (size_t)(&((LODWeights_Type*)0)->maxDistance), NULL, 0 }, // lodWeights.maxDistance
{ TYPE_F32, false, (size_t)(&((LODWeights_Type*)0)->distanceWeight), NULL, 0 }, // lodWeights.distanceWeight
{ TYPE_F32, false, (size_t)(&((LODWeights_Type*)0)->bias), NULL, 0 }, // lodWeights.bias
{ TYPE_F32, false, (size_t)(&((LODWeights_Type*)0)->benefitsBias), NULL, 0 }, // lodWeights.benefitsBias
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->windParams), CHILDREN(36), 2 }, // windParams
{ TYPE_VEC3, false, (size_t)(&((WindParameters_Type*)0)->Velocity), NULL, 0 }, // windParams.Velocity
{ TYPE_F32, false, (size_t)(&((WindParameters_Type*)0)->Adaption), NULL, 0 }, // windParams.Adaption
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->maxDistanceScale), CHILDREN(38), 2 }, // maxDistanceScale
{ TYPE_F32, false, (size_t)(&((MaxDistanceScale_Type*)0)->Scale), NULL, 0 }, // maxDistanceScale.Scale
{ TYPE_BOOL, false, (size_t)(&((MaxDistanceScale_Type*)0)->Multipliable), NULL, 0 }, // maxDistanceScale.Multipliable
{ TYPE_U64, false, (size_t)(&((ParametersStruct*)0)->userData), NULL, 0 }, // userData
{ TYPE_ARRAY, true, (size_t)(&((ParametersStruct*)0)->boneMatrices), CHILDREN(40), 1 }, // boneMatrices
{ TYPE_MAT44, false, 1 * sizeof(physx::PxMat44), NULL, 0 }, // boneMatrices[]
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->clothDescTemplate), CHILDREN(41), 6 }, // clothDescTemplate
{ TYPE_F32, false, (size_t)(&((ClothDescTemplate_Type*)0)->collisionResponseCoefficient), NULL, 0 }, // clothDescTemplate.collisionResponseCoefficient
{ TYPE_U16, false, (size_t)(&((ClothDescTemplate_Type*)0)->collisionGroup), NULL, 0 }, // clothDescTemplate.collisionGroup
{ TYPE_STRUCT, false, (size_t)(&((ClothDescTemplate_Type*)0)->groupsMask), CHILDREN(47), 4 }, // clothDescTemplate.groupsMask
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits0), NULL, 0 }, // clothDescTemplate.groupsMask.bits0
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits1), NULL, 0 }, // clothDescTemplate.groupsMask.bits1
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits2), NULL, 0 }, // clothDescTemplate.groupsMask.bits2
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits3), NULL, 0 }, // clothDescTemplate.groupsMask.bits3
{ TYPE_BOUNDS3, false, (size_t)(&((ClothDescTemplate_Type*)0)->validBounds), NULL, 0 }, // clothDescTemplate.validBounds
{ TYPE_U64, false, (size_t)(&((ClothDescTemplate_Type*)0)->compartment), NULL, 0 }, // clothDescTemplate.compartment
{ TYPE_U64, false, (size_t)(&((ClothDescTemplate_Type*)0)->userData), NULL, 0 }, // clothDescTemplate.userData
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->shapeDescTemplate), CHILDREN(51), 6 }, // shapeDescTemplate
{ TYPE_STRUCT, false, (size_t)(&((ShapeDescTemplate_Type*)0)->flags), CHILDREN(57), 5 }, // shapeDescTemplate.flags
{ TYPE_BOOL, false, (size_t)(&((ShapeDescFlags_Type*)0)->NX_SF_VISUALIZATION), NULL, 0 }, // shapeDescTemplate.flags.NX_SF_VISUALIZATION
{ TYPE_BOOL, false, (size_t)(&((ShapeDescFlags_Type*)0)->NX_SF_DISABLE_COLLISION), NULL, 0 }, // shapeDescTemplate.flags.NX_SF_DISABLE_COLLISION
{ TYPE_BOOL, false, (size_t)(&((ShapeDescFlags_Type*)0)->NX_SF_DISABLE_RAYCASTING), NULL, 0 }, // shapeDescTemplate.flags.NX_SF_DISABLE_RAYCASTING
{ TYPE_BOOL, false, (size_t)(&((ShapeDescFlags_Type*)0)->NX_SF_DYNAMIC_DYNAMIC_CCD), NULL, 0 }, // shapeDescTemplate.flags.NX_SF_DYNAMIC_DYNAMIC_CCD
{ TYPE_BOOL, false, (size_t)(&((ShapeDescFlags_Type*)0)->NX_SF_DISABLE_SCENE_QUERIES), NULL, 0 }, // shapeDescTemplate.flags.NX_SF_DISABLE_SCENE_QUERIES
{ TYPE_U16, false, (size_t)(&((ShapeDescTemplate_Type*)0)->collisionGroup), NULL, 0 }, // shapeDescTemplate.collisionGroup
{ TYPE_STRUCT, false, (size_t)(&((ShapeDescTemplate_Type*)0)->groupsMask), CHILDREN(62), 4 }, // shapeDescTemplate.groupsMask
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits0), NULL, 0 }, // shapeDescTemplate.groupsMask.bits0
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits1), NULL, 0 }, // shapeDescTemplate.groupsMask.bits1
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits2), NULL, 0 }, // shapeDescTemplate.groupsMask.bits2
{ TYPE_U32, false, (size_t)(&((GroupsMask_Type*)0)->bits3), NULL, 0 }, // shapeDescTemplate.groupsMask.bits3
{ TYPE_U16, false, (size_t)(&((ShapeDescTemplate_Type*)0)->materialIndex), NULL, 0 }, // shapeDescTemplate.materialIndex
{ TYPE_U64, false, (size_t)(&((ShapeDescTemplate_Type*)0)->userData), NULL, 0 }, // shapeDescTemplate.userData
{ TYPE_U64, false, (size_t)(&((ShapeDescTemplate_Type*)0)->name), NULL, 0 }, // shapeDescTemplate.name
{ TYPE_STRUCT, false, (size_t)(&((ParametersStruct*)0)->actorDescTemplate), CHILDREN(66), 2 }, // actorDescTemplate
{ TYPE_U64, false, (size_t)(&((ActorDescTemplate_Type*)0)->userData), NULL, 0 }, // actorDescTemplate.userData
{ TYPE_U64, false, (size_t)(&((ActorDescTemplate_Type*)0)->name), NULL, 0 }, // actorDescTemplate.name
{ TYPE_F32, false, (size_t)(&((ParametersStruct*)0)->actorScale), NULL, 0 }, // actorScale
{ TYPE_REF, false, (size_t)(&((ParametersStruct*)0)->runtimeCooked), NULL, 0 }, // runtimeCooked
{ TYPE_ARRAY, true, (size_t)(&((ParametersStruct*)0)->morphDisplacements), CHILDREN(68), 1 }, // morphDisplacements
{ TYPE_VEC3, false, 1 * sizeof(physx::PxVec3), NULL, 0 }, // morphDisplacements[]
{ TYPE_ARRAY, true, (size_t)(&((ParametersStruct*)0)->morphPhysicalMeshNewPositions), CHILDREN(69), 1 }, // morphPhysicalMeshNewPositions
{ TYPE_VEC3, false, 1 * sizeof(physx::PxVec3), NULL, 0 }, // morphPhysicalMeshNewPositions[]
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->allowAdaptiveTargetFrequency), NULL, 0 }, // allowAdaptiveTargetFrequency
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->useVelocityClamping), NULL, 0 }, // useVelocityClamping
{ TYPE_BOUNDS3, false, (size_t)(&((ParametersStruct*)0)->vertexVelocityClamp), NULL, 0 }, // vertexVelocityClamp
{ TYPE_F32, false, (size_t)(&((ParametersStruct*)0)->pressure), NULL, 0 }, // pressure
{ TYPE_BOOL, false, (size_t)(&((ParametersStruct*)0)->multiplyGlobalPoseIntoBones), NULL, 0 }, // multiplyGlobalPoseIntoBones
{ TYPE_ARRAY, true, (size_t)(&((ParametersStruct*)0)->overrideMaterialNames), CHILDREN(70), 1 }, // overrideMaterialNames
{ TYPE_STRING, false, 1 * sizeof(NvParameterized::DummyStringStruct), NULL, 0 }, // overrideMaterialNames[]
};
bool ClothingActorParam_0p9::mBuiltFlag = false;
NvParameterized::MutexType ClothingActorParam_0p9::mBuiltFlagMutex;
ClothingActorParam_0p9::ClothingActorParam_0p9(NvParameterized::Traits* traits, void* buf, int32_t* refCount) :
NvParameters(traits, buf, refCount)
{
//mParameterizedTraits->registerFactory(className(), &ClothingActorParam_0p9FactoryInst);
if (!buf) //Do not init data if it is inplace-deserialized
{
initDynamicArrays();
initStrings();
initReferences();
initDefaults();
}
}
ClothingActorParam_0p9::~ClothingActorParam_0p9()
{
freeStrings();
freeReferences();
freeDynamicArrays();
}
void ClothingActorParam_0p9::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->~ClothingActorParam_0p9();
NvParameters::destroy(this, traits, doDeallocateSelf, refCount, buf);
}
const NvParameterized::DefinitionImpl* ClothingActorParam_0p9::getParameterDefinitionTree(void)
{
if (!mBuiltFlag) // Double-checked lock
{
NvParameterized::MutexType::ScopedLock lock(mBuiltFlagMutex);
if (!mBuiltFlag)
{
buildTree();
}
}
return(&ParamDefTable[0]);
}
const NvParameterized::DefinitionImpl* ClothingActorParam_0p9::getParameterDefinitionTree(void) const
{
ClothingActorParam_0p9* tmpParam = const_cast<ClothingActorParam_0p9*>(this);
if (!mBuiltFlag) // Double-checked lock
{
NvParameterized::MutexType::ScopedLock lock(mBuiltFlagMutex);
if (!mBuiltFlag)
{
tmpParam->buildTree();
}
}
return(&ParamDefTable[0]);
}
NvParameterized::ErrorType ClothingActorParam_0p9::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 ClothingActorParam_0p9::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 ClothingActorParam_0p9::getVarPtr(const Handle& handle, void*& ptr, size_t& offset) const
{
ptr = getVarPtrHelper(&ParamLookupTable[0], const_cast<ClothingActorParam_0p9::ParametersStruct*>(¶meters()), handle, offset);
}
/* Dynamic Handle Indices */
/* [0] - overrideMaterialNames (not an array of structs) */
void ClothingActorParam_0p9::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 ClothingActorParam_0p9::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);
}
// Initialize DefinitionImpl node: nodeIndex=1, longName="globalPose"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[1];
ParamDef->init("globalPose", TYPE_MAT44, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", 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("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "The pose where the clothing asset will be put into the scene", true);
ParamDefTable[1].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=2, longName="useHardwareCloth"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[2];
ParamDef->init("useHardwareCloth", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Turns on hardware acceleration for the cloth simulation", true);
ParamDefTable[2].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=3, longName="flags"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[3];
ParamDef->init("flags", TYPE_STRUCT, "ClothingActorFlags", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "A selection of flags, can be updated at runtime.", true);
ParamDefTable[3].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=4, longName="flags.ParallelCpuSkinning"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[4];
ParamDef->init("ParallelCpuSkinning", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "All graphical vertices without correspondence to physical vertices or\ntriangles are skinned normally. This flag specifies whether this happens\nduring Physics scene simulation, or after.\nNote: If this flag is set, an inconsistency can arise when calling\nNxClothingActor::updateRenderResource in between NxApexScene::simulate\nand NxApexScene::fetchResults. As a workaround, you should only call\nNxClothingActor::updateRenderResources _after_ NxApexScene::fetchResults\nhas terminated.\n", true);
HintTable[1].init("shortDescription", "Determines whether or not to perform CPU skinning in parallel", true);
ParamDefTable[4].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=5, longName="flags.RecomputeNormals"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[5];
ParamDef->init("RecomputeNormals", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "This usually leads to better looking results, but is more expensive to\ncompute. Default is off.\n", true);
HintTable[1].init("shortDescription", "Fully recomputes the normals on the final mesh.", true);
ParamDefTable[5].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=6, longName="flags.Visualize"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[6];
ParamDef->init("Visualize", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Determines whether or not to display debug visualization for this clothing actor", true);
ParamDefTable[6].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=7, longName="flags.CorrectSimulationNormals"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[7];
ParamDef->init("CorrectSimulationNormals", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "The MaxDistance=0 vertices can have a perturbed simulation normal. This usually\nhappens only for meshes where the MaxDistance=0 vertices are somewhere in the\nmiddle separating a simulated and non-simulated region. The normal for those\nvertices will be computed only by the simulated triangles which can lead to\nwrong results.\nThis solution will use the normals from the original simulation mesh and skin\nthem with respect to the local pose.\n", true);
HintTable[1].init("shortDescription", "", true);
ParamDefTable[7].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=8, longName="fallbackSkinning"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[8];
ParamDef->init("fallbackSkinning", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Performs the regular boneweighted skinning on the CPU before giving the\ndata out through the rendering API.\n", true);
HintTable[1].init("shortDescription", "Performs skinning in software", true);
ParamDefTable[8].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=9, longName="slowStart"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[9];
ParamDef->init("slowStart", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "The first time a NxClothingActor starts to be simulated is with full max\ndistance. This prevents starting with full max distance and instead blending\nin as it will do the second time.\n", true);
HintTable[1].init("shortDescription", "Prevents from having full max distance right from the start", true);
ParamDefTable[9].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=10, longName="useInternalBoneOrder"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[10];
ParamDef->init("useInternalBoneOrder", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[10].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[3];
static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("longDescription", "If this is set to true the bone buffers in updateState and the actor\ndescriptor have to be given in the same order as the bones are stored\ninternally in the asset. This can be queried using\nNxClothingAsset::getNumUsedBones and NxClothingAsset::getBoneName or\nNxClothingAsset::getBoneMapping.\n\nIf this is set to false, the bone buffers can be provided in the order as\nthey are stored in the application. This is either the bone order at\nauthoring time, or NxClothingAsset::remapBoneIndex can be called for each\nbone to let APEX know about the current ordering in the game. Note that\nthis is only recommended if the application already uses physx::PxMat44\n(or something binary equivalent) and does not have to convert the matrices.\n", true);
HintTable[2].init("shortDescription", "Expect internally ordered bone arrays in updateState call.", true);
ParamDefTable[10].setHints((const NvParameterized::Hint**)HintPtrTable, 3);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=11, longName="updateStateWithGlobalMatrices"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[11];
ParamDef->init("updateStateWithGlobalMatrices", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Depending on what matrices are present, the state can be updated using\nglobal world or object space bone matrices or composite matrices. The\ncomposite matrix can be generated by multiplying the world or object space\nmatrix by the inverse bone bine pose.\n\nNote: If there are problems which might be caused by bind poses being\ndifferent in the ClothingAsset and in the game's animation system, changing\nthis to true (and thus providing global pose matrices) might fix the problem.\n", true);
HintTable[1].init("shortDescription", "Use world space matrices instead of composite (relative to bind pose) in NxClothingActor::updateState().", true);
ParamDefTable[11].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=12, longName="uvChannelForTangentUpdate"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[12];
ParamDef->init("uvChannelForTangentUpdate", TYPE_U32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Tangent update is done based on one UV channel. This allows selection of what\nUV channel is being used.\n", true);
HintTable[1].init("shortDescription", "This UV channel is used for updating tangent space", true);
ParamDefTable[12].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=13, longName="maxDistanceBlendTime"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[13];
ParamDef->init("maxDistanceBlendTime", TYPE_F32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Note: This also influences how quickly different physical LoDs can be switched", true);
HintTable[1].init("shortDescription", "Time in seconds how long it takes to go from zero maxDistance to full maxDistance", true);
ParamDefTable[13].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=14, longName="clothingMaterialIndex"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[14];
ParamDef->init("clothingMaterialIndex", TYPE_U32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Use this material from the assets material library", true);
ParamDefTable[14].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=15, longName="lodWeights"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[15];
ParamDef->init("lodWeights", TYPE_STRUCT, "LODWeights", true);
}
// Initialize DefinitionImpl node: nodeIndex=16, longName="lodWeights.maxDistance"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[16];
ParamDef->init("maxDistance", TYPE_F32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=17, longName="lodWeights.distanceWeight"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[17];
ParamDef->init("distanceWeight", TYPE_F32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=18, longName="lodWeights.bias"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[18];
ParamDef->init("bias", TYPE_F32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=19, longName="lodWeights.benefitsBias"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[19];
ParamDef->init("benefitsBias", TYPE_F32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=20, longName="windParams"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[20];
ParamDef->init("windParams", TYPE_STRUCT, "WindParameters", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "The per-actor wind parameters", true);
ParamDefTable[20].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=21, longName="windParams.Velocity"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[21];
ParamDef->init("Velocity", TYPE_VEC3, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "The target velocity each vertex tries to achieve.", true);
ParamDefTable[21].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=22, longName="windParams.Adaption"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[22];
ParamDef->init("Adaption", TYPE_F32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "This is roughly the inverse of the time in seconds it takes to adapt to the wind velocity.", true);
HintTable[1].init("shortDescription", "The rate of adaption. The higher this value, the faster the cloth reaches the wind velocity. Set to 0 to turn off wind.", true);
ParamDefTable[22].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=23, longName="maxDistanceScale"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[23];
ParamDef->init("maxDistanceScale", TYPE_STRUCT, "MaxDistanceScale", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "", true);
ParamDefTable[23].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=24, longName="maxDistanceScale.Scale"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[24];
ParamDef->init("Scale", TYPE_F32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "", true);
ParamDefTable[24].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=25, longName="maxDistanceScale.Multipliable"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[25];
ParamDef->init("Multipliable", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "", true);
ParamDefTable[25].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=26, longName="userData"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[26];
ParamDef->init("userData", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[26].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "Optional user data pointer associated with the clothing actor", true);
ParamDefTable[26].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=27, longName="boneMatrices"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[27];
ParamDef->init("boneMatrices", TYPE_ARRAY, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[27].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[3];
static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("longDescription", "These matrices are sometimes referred to as composite matrices. They are the\nmultiplication of the current world space bone pose with the inverse bind\npose in world space.\nNote: If \'updateStateWithGlobalMatrices\' is set to true, these must be\nglobal poses instead.\n", true);
HintTable[2].init("shortDescription", "An Array of matrices with the full transform for each bone", true);
ParamDefTable[27].setHints((const NvParameterized::Hint**)HintPtrTable, 3);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
ParamDef->setArraySize(-1);
}
// Initialize DefinitionImpl node: nodeIndex=28, longName="boneMatrices[]"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[28];
ParamDef->init("boneMatrices", TYPE_MAT44, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[28].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[3];
static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("longDescription", "These matrices are sometimes referred to as composite matrices. They are the\nmultiplication of the current world space bone pose with the inverse bind\npose in world space.\nNote: If \'updateStateWithGlobalMatrices\' is set to true, these must be\nglobal poses instead.\n", true);
HintTable[2].init("shortDescription", "An Array of matrices with the full transform for each bone", true);
ParamDefTable[28].setHints((const NvParameterized::Hint**)HintPtrTable, 3);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=29, longName="clothDescTemplate"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[29];
ParamDef->init("clothDescTemplate", TYPE_STRUCT, "ClothDescTemplate", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Contains the parameters the application can override on the NxClothDesc when created", true);
ParamDefTable[29].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=30, longName="clothDescTemplate.collisionResponseCoefficient"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[30];
ParamDef->init("collisionResponseCoefficient", TYPE_F32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "This is only needed if the twoway interaction flag is set in the clothing asset.", true);
HintTable[1].init("shortDescription", "Defines a factor for the impulse transfer from cloth to colliding rigid bodies.", true);
ParamDefTable[30].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=31, longName="clothDescTemplate.collisionGroup"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[31];
ParamDef->init("collisionGroup", TYPE_U16, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Sets which collision group this cloth is part of.", true);
ParamDefTable[31].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=32, longName="clothDescTemplate.groupsMask"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[32];
ParamDef->init("groupsMask", TYPE_STRUCT, "GroupsMask", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Sets the 128-bit mask used for collision filtering.", true);
ParamDefTable[32].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=33, longName="clothDescTemplate.groupsMask.bits0"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[33];
ParamDef->init("bits0", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=34, longName="clothDescTemplate.groupsMask.bits1"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[34];
ParamDef->init("bits1", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=35, longName="clothDescTemplate.groupsMask.bits2"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[35];
ParamDef->init("bits2", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=36, longName="clothDescTemplate.groupsMask.bits3"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[36];
ParamDef->init("bits3", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=37, longName="clothDescTemplate.validBounds"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[37];
ParamDef->init("validBounds", TYPE_BOUNDS3, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Only works if the flag NX_CLF_VALIDBOUNDS is set.", true);
HintTable[1].init("shortDescription", "Defines the volume outside of which cloth particle are automatically removed from the simulation. ", true);
ParamDefTable[37].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=38, longName="clothDescTemplate.compartment"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[38];
ParamDef->init("compartment", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[38].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[3];
static Hint* HintPtrTable[3] = { &HintTable[0], &HintTable[1], &HintTable[2], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("longDescription", "Must be either a pointer to an NxCompartment of type NX_SCT_CLOTH or\nNX_SCT_SOFTBODY, or NULL. A NULL compartment means creating NX_CLF_HARDWARE\ncloth in the first available cloth compartment (a default cloth compartment\nis created if none exists). Software cloth with a NULL compartment is\ncreated in the scene proper.\n", true);
HintTable[2].init("shortDescription", "The compartment to place the cloth in.", true);
ParamDefTable[38].setHints((const NvParameterized::Hint**)HintPtrTable, 3);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=39, longName="clothDescTemplate.userData"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[39];
ParamDef->init("userData", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[39].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "Optional user data pointer.", true);
ParamDefTable[39].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=40, longName="shapeDescTemplate"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[40];
ParamDef->init("shapeDescTemplate", TYPE_STRUCT, "ShapeDescTemplate", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Contains the parameters the application can override on any actor shapes created", true);
ParamDefTable[40].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=41, longName="shapeDescTemplate.flags"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[41];
ParamDef->init("flags", TYPE_STRUCT, "ShapeDescFlags", true);
}
// Initialize DefinitionImpl node: nodeIndex=42, longName="shapeDescTemplate.flags.NX_SF_VISUALIZATION"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[42];
ParamDef->init("NX_SF_VISUALIZATION", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Enable debug renderer for this shape", true);
ParamDefTable[42].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=43, longName="shapeDescTemplate.flags.NX_SF_DISABLE_COLLISION"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[43];
ParamDef->init("NX_SF_DISABLE_COLLISION", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Disable collision detection for this shape (counterpart of NX_AF_DISABLE_COLLISION)", true);
ParamDefTable[43].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=44, longName="shapeDescTemplate.flags.NX_SF_DISABLE_RAYCASTING"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[44];
ParamDef->init("NX_SF_DISABLE_RAYCASTING", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Disable raycasting for this shape", true);
ParamDefTable[44].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=45, longName="shapeDescTemplate.flags.NX_SF_DYNAMIC_DYNAMIC_CCD"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[45];
ParamDef->init("NX_SF_DYNAMIC_DYNAMIC_CCD", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Enable dynamic-dynamic CCD for this shape. Used only when CCD is globally enabled and shape have a CCD skeleton.", true);
ParamDefTable[45].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=46, longName="shapeDescTemplate.flags.NX_SF_DISABLE_SCENE_QUERIES"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[46];
ParamDef->init("NX_SF_DISABLE_SCENE_QUERIES", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Setting this to true will make the non-compartment CPU cloth not work.", true);
HintTable[1].init("shortDescription", "Disable participation in ray casts, overlap tests and sweeps.", true);
ParamDefTable[46].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=47, longName="shapeDescTemplate.collisionGroup"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[47];
ParamDef->init("collisionGroup", TYPE_U16, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("longDescription", "Default group is 0. Maximum possible group is 31. Collision groups are sets\nof shapes which may or may not be set to collision detect with each other;\nthis can be set using NxScene::setGroupCollisionFlag()\nSleeping: Does NOT wake the associated actor up automatically.\n", true);
HintTable[1].init("shortDescription", "Sets which collision group this shape is part of.", true);
ParamDefTable[47].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=48, longName="shapeDescTemplate.groupsMask"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[48];
ParamDef->init("groupsMask", TYPE_STRUCT, "GroupsMask", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Sets the 128-bit mask used for collision filtering.", true);
ParamDefTable[48].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=49, longName="shapeDescTemplate.groupsMask.bits0"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[49];
ParamDef->init("bits0", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=50, longName="shapeDescTemplate.groupsMask.bits1"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[50];
ParamDef->init("bits1", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=51, longName="shapeDescTemplate.groupsMask.bits2"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[51];
ParamDef->init("bits2", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=52, longName="shapeDescTemplate.groupsMask.bits3"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[52];
ParamDef->init("bits3", TYPE_U32, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=53, longName="shapeDescTemplate.materialIndex"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[53];
ParamDef->init("materialIndex", TYPE_U16, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "The material index of the shape.", true);
ParamDefTable[53].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=54, longName="shapeDescTemplate.userData"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[54];
ParamDef->init("userData", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[54].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "Optional user data pointer", true);
ParamDefTable[54].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=55, longName="shapeDescTemplate.name"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[55];
ParamDef->init("name", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[55].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "Name of the shapes; must be set by the application and must be a persistent pointer.", true);
ParamDefTable[55].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=56, longName="actorDescTemplate"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[56];
ParamDef->init("actorDescTemplate", TYPE_STRUCT, "ActorDescTemplate", true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Contains the parameters the application can override on any actors created", true);
ParamDefTable[56].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=57, longName="actorDescTemplate.userData"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[57];
ParamDef->init("userData", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[57].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "Optional user data pointer", true);
ParamDefTable[57].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=58, longName="actorDescTemplate.name"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[58];
ParamDef->init("name", TYPE_U64, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("editorDisplay", "false", true);
ParamDefTable[58].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("editorDisplay", "false", true);
HintTable[1].init("shortDescription", "Optional name string for the shape; must be set by the application and must be a persistent pointer.", true);
ParamDefTable[58].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=59, longName="actorScale"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[59];
ParamDef->init("actorScale", TYPE_F32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Scale the actor differently than the asset.", true);
ParamDefTable[59].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=60, longName="runtimeCooked"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[60];
ParamDef->init("runtimeCooked", TYPE_REF, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("INCLUDED", uint64_t(1), true);
ParamDefTable[60].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#else
static HintImpl HintTable[2];
static Hint* HintPtrTable[2] = { &HintTable[0], &HintTable[1], };
HintTable[0].init("INCLUDED", uint64_t(1), true);
HintTable[1].init("shortDescription", "Data cooked at runtime", true);
ParamDefTable[60].setHints((const NvParameterized::Hint**)HintPtrTable, 2);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
static const char* const RefVariantVals[] = { "ClothingCookedParam" };
ParamDefTable[60].setRefVariantVals((const char**)RefVariantVals, 1);
}
// Initialize DefinitionImpl node: nodeIndex=61, longName="morphDisplacements"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[61];
ParamDef->init("morphDisplacements", TYPE_ARRAY, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Displacements according to the current morph target.", true);
ParamDefTable[61].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
ParamDef->setArraySize(-1);
}
// Initialize DefinitionImpl node: nodeIndex=62, longName="morphDisplacements[]"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[62];
ParamDef->init("morphDisplacements", TYPE_VEC3, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Displacements according to the current morph target.", true);
ParamDefTable[62].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=63, longName="morphPhysicalMeshNewPositions"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[63];
ParamDef->init("morphPhysicalMeshNewPositions", TYPE_ARRAY, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "New positions for the physical meshes and convex collision volumes.", true);
ParamDefTable[63].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
ParamDef->setArraySize(-1);
}
// Initialize DefinitionImpl node: nodeIndex=64, longName="morphPhysicalMeshNewPositions[]"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[64];
ParamDef->init("morphPhysicalMeshNewPositions", TYPE_VEC3, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "New positions for the physical meshes and convex collision volumes.", true);
ParamDefTable[64].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=65, longName="allowAdaptiveTargetFrequency"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[65];
ParamDef->init("allowAdaptiveTargetFrequency", TYPE_BOOL, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Slightly modifies gravity to avoid high frequency jittering due to variable time steps.", true);
ParamDefTable[65].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=66, longName="useVelocityClamping"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[66];
ParamDef->init("useVelocityClamping", TYPE_BOOL, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=67, longName="vertexVelocityClamp"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[67];
ParamDef->init("vertexVelocityClamp", TYPE_BOUNDS3, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=68, longName="pressure"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[68];
ParamDef->init("pressure", TYPE_F32, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Set pressure of cloth, only works on closed meshes.", true);
ParamDefTable[68].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// Initialize DefinitionImpl node: nodeIndex=69, longName="multiplyGlobalPoseIntoBones"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[69];
ParamDef->init("multiplyGlobalPoseIntoBones", TYPE_BOOL, NULL, true);
}
// Initialize DefinitionImpl node: nodeIndex=70, longName="overrideMaterialNames"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[70];
ParamDef->init("overrideMaterialNames", TYPE_ARRAY, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Replacement material names for the ones provided by the render mesh asset inside the clothing asset.", true);
ParamDefTable[70].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
ParamDef->setArraySize(-1);
static const uint8_t dynHandleIndices[1] = { 0, };
ParamDef->setDynamicHandleIndicesMap(dynHandleIndices, 1);
}
// Initialize DefinitionImpl node: nodeIndex=71, longName="overrideMaterialNames[]"
{
NvParameterized::DefinitionImpl* ParamDef = &ParamDefTable[71];
ParamDef->init("overrideMaterialNames", TYPE_STRING, NULL, true);
#ifdef NV_PARAMETERIZED_HIDE_DESCRIPTIONS
#else
static HintImpl HintTable[1];
static Hint* HintPtrTable[1] = { &HintTable[0], };
HintTable[0].init("shortDescription", "Replacement material names for the ones provided by the render mesh asset inside the clothing asset.", true);
ParamDefTable[71].setHints((const NvParameterized::Hint**)HintPtrTable, 1);
#endif /* NV_PARAMETERIZED_HIDE_DESCRIPTIONS */
}
// SetChildren for: nodeIndex=0, longName=""
{
static Definition* Children[28];
Children[0] = PDEF_PTR(1);
Children[1] = PDEF_PTR(2);
Children[2] = PDEF_PTR(3);
Children[3] = PDEF_PTR(8);
Children[4] = PDEF_PTR(9);
Children[5] = PDEF_PTR(10);
Children[6] = PDEF_PTR(11);
Children[7] = PDEF_PTR(12);
Children[8] = PDEF_PTR(13);
Children[9] = PDEF_PTR(14);
Children[10] = PDEF_PTR(15);
Children[11] = PDEF_PTR(20);
Children[12] = PDEF_PTR(23);
Children[13] = PDEF_PTR(26);
Children[14] = PDEF_PTR(27);
Children[15] = PDEF_PTR(29);
Children[16] = PDEF_PTR(40);
Children[17] = PDEF_PTR(56);
Children[18] = PDEF_PTR(59);
Children[19] = PDEF_PTR(60);
Children[20] = PDEF_PTR(61);
Children[21] = PDEF_PTR(63);
Children[22] = PDEF_PTR(65);
Children[23] = PDEF_PTR(66);
Children[24] = PDEF_PTR(67);
Children[25] = PDEF_PTR(68);
Children[26] = PDEF_PTR(69);
Children[27] = PDEF_PTR(70);
ParamDefTable[0].setChildren(Children, 28);
}
// SetChildren for: nodeIndex=3, longName="flags"
{
static Definition* Children[4];
Children[0] = PDEF_PTR(4);
Children[1] = PDEF_PTR(5);
Children[2] = PDEF_PTR(6);
Children[3] = PDEF_PTR(7);
ParamDefTable[3].setChildren(Children, 4);
}
// SetChildren for: nodeIndex=15, longName="lodWeights"
{
static Definition* Children[4];
Children[0] = PDEF_PTR(16);
Children[1] = PDEF_PTR(17);
Children[2] = PDEF_PTR(18);
Children[3] = PDEF_PTR(19);
ParamDefTable[15].setChildren(Children, 4);
}
// SetChildren for: nodeIndex=20, longName="windParams"
{
static Definition* Children[2];
Children[0] = PDEF_PTR(21);
Children[1] = PDEF_PTR(22);
ParamDefTable[20].setChildren(Children, 2);
}
// SetChildren for: nodeIndex=23, longName="maxDistanceScale"
{
static Definition* Children[2];
Children[0] = PDEF_PTR(24);
Children[1] = PDEF_PTR(25);
ParamDefTable[23].setChildren(Children, 2);
}
// SetChildren for: nodeIndex=27, longName="boneMatrices"
{
static Definition* Children[1];
Children[0] = PDEF_PTR(28);
ParamDefTable[27].setChildren(Children, 1);
}
// SetChildren for: nodeIndex=29, longName="clothDescTemplate"
{
static Definition* Children[6];
Children[0] = PDEF_PTR(30);
Children[1] = PDEF_PTR(31);
Children[2] = PDEF_PTR(32);
Children[3] = PDEF_PTR(37);
Children[4] = PDEF_PTR(38);
Children[5] = PDEF_PTR(39);
ParamDefTable[29].setChildren(Children, 6);
}
// SetChildren for: nodeIndex=32, longName="clothDescTemplate.groupsMask"
{
static Definition* Children[4];
Children[0] = PDEF_PTR(33);
Children[1] = PDEF_PTR(34);
Children[2] = PDEF_PTR(35);
Children[3] = PDEF_PTR(36);
ParamDefTable[32].setChildren(Children, 4);
}
// SetChildren for: nodeIndex=40, longName="shapeDescTemplate"
{
static Definition* Children[6];
Children[0] = PDEF_PTR(41);
Children[1] = PDEF_PTR(47);
Children[2] = PDEF_PTR(48);
Children[3] = PDEF_PTR(53);
Children[4] = PDEF_PTR(54);
Children[5] = PDEF_PTR(55);
ParamDefTable[40].setChildren(Children, 6);
}
// SetChildren for: nodeIndex=41, longName="shapeDescTemplate.flags"
{
static Definition* Children[5];
Children[0] = PDEF_PTR(42);
Children[1] = PDEF_PTR(43);
Children[2] = PDEF_PTR(44);
Children[3] = PDEF_PTR(45);
Children[4] = PDEF_PTR(46);
ParamDefTable[41].setChildren(Children, 5);
}
// SetChildren for: nodeIndex=48, longName="shapeDescTemplate.groupsMask"
{
static Definition* Children[4];
Children[0] = PDEF_PTR(49);
Children[1] = PDEF_PTR(50);
Children[2] = PDEF_PTR(51);
Children[3] = PDEF_PTR(52);
ParamDefTable[48].setChildren(Children, 4);
}
// SetChildren for: nodeIndex=56, longName="actorDescTemplate"
{
static Definition* Children[2];
Children[0] = PDEF_PTR(57);
Children[1] = PDEF_PTR(58);
ParamDefTable[56].setChildren(Children, 2);
}
// SetChildren for: nodeIndex=61, longName="morphDisplacements"
{
static Definition* Children[1];
Children[0] = PDEF_PTR(62);
ParamDefTable[61].setChildren(Children, 1);
}
// SetChildren for: nodeIndex=63, longName="morphPhysicalMeshNewPositions"
{
static Definition* Children[1];
Children[0] = PDEF_PTR(64);
ParamDefTable[63].setChildren(Children, 1);
}
// SetChildren for: nodeIndex=70, longName="overrideMaterialNames"
{
static Definition* Children[1];
Children[0] = PDEF_PTR(71);
ParamDefTable[70].setChildren(Children, 1);
}
mBuiltFlag = true;
}
void ClothingActorParam_0p9::initStrings(void)
{
}
void ClothingActorParam_0p9::initDynamicArrays(void)
{
boneMatrices.buf = NULL;
boneMatrices.isAllocated = true;
boneMatrices.elementSize = sizeof(physx::PxMat44);
boneMatrices.arraySizes[0] = 0;
morphDisplacements.buf = NULL;
morphDisplacements.isAllocated = true;
morphDisplacements.elementSize = sizeof(physx::PxVec3);
morphDisplacements.arraySizes[0] = 0;
morphPhysicalMeshNewPositions.buf = NULL;
morphPhysicalMeshNewPositions.isAllocated = true;
morphPhysicalMeshNewPositions.elementSize = sizeof(physx::PxVec3);
morphPhysicalMeshNewPositions.arraySizes[0] = 0;
overrideMaterialNames.buf = NULL;
overrideMaterialNames.isAllocated = true;
overrideMaterialNames.elementSize = sizeof(NvParameterized::DummyStringStruct);
overrideMaterialNames.arraySizes[0] = 0;
}
void ClothingActorParam_0p9::initDefaults(void)
{
freeStrings();
freeReferences();
freeDynamicArrays();
globalPose = physx::PxMat44(physx::PxVec4(1.0f));
useHardwareCloth = bool(true);
flags.ParallelCpuSkinning = bool(true);
flags.RecomputeNormals = bool(false);
flags.Visualize = bool(true);
flags.CorrectSimulationNormals = bool(true);
fallbackSkinning = bool(false);
slowStart = bool(true);
useInternalBoneOrder = bool(false);
updateStateWithGlobalMatrices = bool(false);
uvChannelForTangentUpdate = uint32_t(0);
maxDistanceBlendTime = float(1.0);
clothingMaterialIndex = uint32_t(0);
lodWeights.maxDistance = float(2000);
lodWeights.distanceWeight = float(1);
lodWeights.bias = float(0);
lodWeights.benefitsBias = float(0);
windParams.Velocity = physx::PxVec3(0.0f);
windParams.Adaption = float(0.0f);
maxDistanceScale.Scale = float(1.0f);
maxDistanceScale.Multipliable = bool(false);
userData = uint64_t(0);
clothDescTemplate.collisionResponseCoefficient = float(0.2);
clothDescTemplate.collisionGroup = uint16_t(0);
clothDescTemplate.groupsMask.bits0 = uint32_t(0);
clothDescTemplate.groupsMask.bits1 = uint32_t(0);
clothDescTemplate.groupsMask.bits2 = uint32_t(0);
clothDescTemplate.groupsMask.bits3 = uint32_t(0);
clothDescTemplate.validBounds = physx::PxBounds3(physx::PxVec3(PX_MAX_F32), physx::PxVec3(-PX_MAX_F32));
clothDescTemplate.compartment = uint64_t(0);
shapeDescTemplate.flags.NX_SF_VISUALIZATION = bool(true);
shapeDescTemplate.flags.NX_SF_DISABLE_COLLISION = bool(false);
shapeDescTemplate.flags.NX_SF_DISABLE_RAYCASTING = bool(true);
shapeDescTemplate.flags.NX_SF_DYNAMIC_DYNAMIC_CCD = bool(false);
shapeDescTemplate.flags.NX_SF_DISABLE_SCENE_QUERIES = bool(false);
shapeDescTemplate.collisionGroup = uint16_t(0);
shapeDescTemplate.groupsMask.bits0 = uint32_t(0);
shapeDescTemplate.groupsMask.bits1 = uint32_t(0);
shapeDescTemplate.groupsMask.bits2 = uint32_t(0);
shapeDescTemplate.groupsMask.bits3 = uint32_t(0);
shapeDescTemplate.materialIndex = uint16_t(0);
shapeDescTemplate.userData = uint64_t(0);
shapeDescTemplate.name = uint64_t(0);
actorDescTemplate.userData = uint64_t(0);
actorDescTemplate.name = uint64_t(0);
actorScale = float(1.0);
allowAdaptiveTargetFrequency = bool(true);
useVelocityClamping = bool(false);
vertexVelocityClamp = physx::PxBounds3(physx::PxVec3(-PX_MAX_F32), physx::PxVec3(PX_MAX_F32));
pressure = float(-1.0);
multiplyGlobalPoseIntoBones = bool(true);
initDynamicArrays();
initStrings();
initReferences();
}
void ClothingActorParam_0p9::initReferences(void)
{
runtimeCooked = NULL;
}
void ClothingActorParam_0p9::freeDynamicArrays(void)
{
if (boneMatrices.isAllocated && boneMatrices.buf)
{
mParameterizedTraits->free(boneMatrices.buf);
}
if (morphDisplacements.isAllocated && morphDisplacements.buf)
{
mParameterizedTraits->free(morphDisplacements.buf);
}
if (morphPhysicalMeshNewPositions.isAllocated && morphPhysicalMeshNewPositions.buf)
{
mParameterizedTraits->free(morphPhysicalMeshNewPositions.buf);
}
if (overrideMaterialNames.isAllocated && overrideMaterialNames.buf)
{
mParameterizedTraits->free(overrideMaterialNames.buf);
}
}
void ClothingActorParam_0p9::freeStrings(void)
{
for (int i = 0; i < overrideMaterialNames.arraySizes[0]; ++i)
{
if (overrideMaterialNames.buf[i].isAllocated && overrideMaterialNames.buf[i].buf)
{
mParameterizedTraits->strfree((char*)overrideMaterialNames.buf[i].buf);
}
}
}
void ClothingActorParam_0p9::freeReferences(void)
{
if (runtimeCooked)
{
runtimeCooked->destroy();
}
}
} // namespace parameterized
} // namespace nvidia
```
|
```kotlin
package kotlinx.coroutines.rx3
import kotlinx.coroutines.testing.*
import io.reactivex.rxjava3.core.*
import kotlinx.coroutines.*
import kotlinx.coroutines.flow.*
import kotlinx.coroutines.reactive.*
import org.junit.Test
import kotlin.test.*
class BackpressureTest : TestBase() {
@Test
fun testBackpressureDropDirect() = runTest {
expect(1)
Flowable.fromArray(1)
.onBackpressureDrop()
.collect {
assertEquals(1, it)
expect(2)
}
finish(3)
}
@Test
fun testBackpressureDropFlow() = runTest {
expect(1)
Flowable.fromArray(1)
.onBackpressureDrop()
.asFlow()
.collect {
assertEquals(1, it)
expect(2)
}
finish(3)
}
}
```
|
```protocol buffer
//
//
// path_to_url
//
// Unless required by applicable law or agreed to in writing, software
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// The canonical version of this proto can be found at
// path_to_url
syntax = "proto3";
package grpc.health.v1;
option csharp_namespace = "Grpc.Health.V1";
option go_package = "google.golang.org/grpc/health/grpc_health_v1";
option java_multiple_files = true;
option java_outer_classname = "HealthProto";
option java_package = "io.grpc.health.v1";
message HealthCheckRequest {
string service = 1;
}
message HealthCheckResponse {
enum ServingStatus {
UNKNOWN = 0;
SERVING = 1;
NOT_SERVING = 2;
}
ServingStatus status = 1;
}
service Health {
rpc Check(HealthCheckRequest) returns (HealthCheckResponse);
}
```
|
The Maritime Prepositioning Force (MPF) Utility Boat (MPFUB) is a commercially designed utility craft used primarily to move personnel and light equipment during MPF offload operations. The 41 foot long, high-speed landing craft are replacing the Navy’s existing LCM-8 craft as part of the United States Navy's Improved Navy Lighterage System (INLS) in support of pre-positioned Marine Amphibious assault missions. Additional missions include supporting waterborne force protection, transportation of personnel and materials, medical evacuation, salvage, damage control, and repair operations.
The MPFUB's power bow ramp facilitates embarking and discharging personnel over an INLS, low pier, or quay. Cargo capacity is ten tons, or up to 30 personnel with 150 lbs of equipment at speeds up to 25 knots fully loaded. It can reach speeds around 40 knots when empty.
The MPFUB weighs about 44,000 pounds (19,950 kg). Propulsion is provided by twin Cummins QSM11 engines rated for 660 hp at 2300 rpm and Hamilton 364 water jets (for beach deployments). The MPFUB has three weapon mounts for M2 Browning, Mk 19 grenade launcher, or M240 machine guns. It was designed by Kvichak Marine Industries, Incorporated.
Procurement of the MPFUB is managed by the Naval Facilities Expeditionary Logistics Center (NFELC). The first MPFUB was delivered to the Navy's Assault Craft Unit ONE in 2006.
References
Landing craft
United States Navy
Military boats
|
```cuda
// your_sha256_hash------------
// - Open3D: www.open3d.org -
// your_sha256_hash------------
// your_sha256_hash------------
//***************************************************************************************/
//
// path_to_url
//
//
// 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 <stdio.h>
#include <stdlib.h>
#include <vector>
#include "ATen/cuda/CUDAContext.h"
#include "open3d/ml/contrib/PointSampling.cuh"
#include "open3d/ml/contrib/cuda_utils.h"
#include "open3d/ml/pytorch/pointnet/SamplingKernel.h"
using namespace open3d::ml::contrib;
void furthest_point_sampling_launcher(
int b, int n, int m, const float *dataset, float *temp, int *idxs) {
// dataset: (B, N, 3)
// tmp: (B, N)
// output:
// idx: (B, M)
cudaError_t err;
auto stream = at::cuda::getCurrentCUDAStream();
unsigned int n_threads = OptNumThreads(n);
switch (n_threads) {
case 1024:
furthest_point_sampling_kernel<1024>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 512:
furthest_point_sampling_kernel<512>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 256:
furthest_point_sampling_kernel<256>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 128:
furthest_point_sampling_kernel<128>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 64:
furthest_point_sampling_kernel<64>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 32:
furthest_point_sampling_kernel<32>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 16:
furthest_point_sampling_kernel<16>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 8:
furthest_point_sampling_kernel<8>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 4:
furthest_point_sampling_kernel<4>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 2:
furthest_point_sampling_kernel<2>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
case 1:
furthest_point_sampling_kernel<1>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
break;
default:
furthest_point_sampling_kernel<512>
<<<b, n_threads, 0, stream>>>(b, n, m, dataset, temp, idxs);
}
err = cudaGetLastError();
if (cudaSuccess != err) {
fprintf(stderr, "CUDA kernel failed : %s\n", cudaGetErrorString(err));
exit(-1);
}
}
```
|
```xml
import * as React from 'react';
import type { Meta } from '@storybook/react';
import { Steps } from 'storywright';
import { Menu, MenuTrigger, MenuPopover, MenuList, MenuItem } from '@fluentui/react-menu';
import { getStoryVariant, RTL, withStoryWrightSteps } from '../../utilities';
export default {
title: 'Menu Converged - nested submenus',
decorators: [
// path_to_url
story => withStoryWrightSteps({ story, steps: new Steps().click('#nestedTrigger').snapshot('all open').end() }),
],
} satisfies Meta<typeof Menu>;
export const Default = () => (
<Menu open>
<MenuTrigger>
<button>Toggle menu</button>
</MenuTrigger>
<MenuPopover>
<MenuList>
<MenuItem>New </MenuItem>
<MenuItem>New Window</MenuItem>
<MenuItem>Open Folder</MenuItem>
<Menu>
<MenuTrigger>
<MenuItem id="nestedTrigger">Preferences</MenuItem>
</MenuTrigger>
<MenuPopover>
<MenuList>
<MenuItem>New </MenuItem>
<MenuItem>New Window</MenuItem>
<MenuItem>Open Folder</MenuItem>
</MenuList>
</MenuPopover>
</Menu>
</MenuList>
</MenuPopover>
</Menu>
);
Default.storyName = 'default';
export const DefaultRTL = getStoryVariant(Default, RTL);
```
|
Szronka is a village in the administrative district of Gmina Kuczbork-Osada, within Żuromin County, Masovian Voivodeship, in east-central Poland. It lies approximately north-east of Żuromin and north-west of Warsaw.
References
Szronka
|
Bahman Motamedian (; born 2 July) is an Iranian filmmaker, photographer, writer and script writer. He was born in Tehran, Iran. Motamedian belongs to the so-called "new wave" of Iranian cinema.
Bahman Motamedian is also has been involved in over twenty works, including shorts film, documentaries film, video art and theater.
Motamedian made his first feature film, titled "Khastegi" ("Sex My Life" aka "Tedium") in 2008. "Khastegi" (Sex My Life) was shown in the official selection of 65th Venice International Film Festival as the "surprise film" in 2008.
Filmography
Screen Writing
Screen Writing for Television Series
Four Homes [Title in Persian: Chahar Khoone] (2007–2008)
Nights in Barareh [Title in Persian: Shabhaye Barareh] (2005)
Dots [Title in Persian: Noghtechin] (2005)
Do Not Enter [Title in Persian: Vorod Mamno, Mamno] (2004)
Under the City Sky [Title in Persian: Zire Asemane Shahr] (2003)
Untitled [Title in Persian: Bedone Sharh] (2002)
Empyrean Police [Title in Persian: Polise Asemani] (2001)
Number 14 [Title in Persian: Pelake 14] (2000)
Magic Light [Title in Persian: Cheraghe Jadou] (2000)
Eternal Train [Title in Persian: Ghatare Abadi] (2000)
Awards and nominations
Awards the first prize (24th Torino GBLT Film Festival 23–3 April 2009 / Torino, Italy)
Special citation (Best producer) (Asia Pacific Festival of 1st Films/ 4–10 December 2008/ Singapore)
Brian Prize (65th Venice International Film Festival / 27 August to 6 September 2008)
Queer Lion Award (65th Venice International Film Festival / 27 August to 6 September 2008)
The Best Experimental Film /Aquarium /( / 13–19 June 2003/Ebensee, Austria)
Silver Bear /Aquarium /(Festival of Nations / 13–19 June 2003/Ebensee, Austria)
"Aquarium" has been screened at
Sonar International Short Film Festival (April 2006 /Florence – Italy)
3rd International Festival Signes de Nuit (25–30 April 2005 /Paris)
Rencontres International Paris/Berlin (18–28 February 2003/Paris)
(13–19 June 2003 /Ebensee, Austria)
Rencontres International Paris/Berlin (10–22 November 2003/berlin)
Victoria Independent Film & Video Festival (1-10 February 2002/Canada)
25th Open Air Film Fest WEITERSTAD (16–20 August 2001/Germany)
2nd IndieKINO International film festival (July2001/Seoul, Korea)
Ajijic International film festival (7–11 November 2001/Mexico)
Kansas City film festival (7–14 April/U.S.A)
"Khastegi" (Sex My Life) has been screened at
24th BFI London Lesbian & Gay Film Festival (BFI) ( 17–31 March 2010/ London, England)
Cinema Digital Seoul Film Festival (CinDi) ( 19–25 August 2009 / Seoul, South Korea)
Chelsea Art Museum (15 July – 19 August 2009 / New York City)
19th Toronto LGBT Film Festival (14–24 May 2009 / Toronto, Ontario, Canada)
24th Torino GBLT Film Festival (23–3 April 2009 / Torino, Italy)
Prague international Film Festival (FEBIOFEST) (26 March-3 April 2009 / Prague, Czech Republic)
International Contemporary Film Festival (FICCO) (17 Feb – 1 Mar 2009 / Mexico, Mexico City)
Asia Pacific Festival of 1st Films (4–10 December 2008 / Singapore)
Festival of 3 Continents, Nantes (22 November – 2 December 2008 / Nantes, French)
Sao Paulo Film Festival (17–30 October 2008 / São Paulo, Brazil)
Venice Film Festival (27 August – 6 September 2008 / Venice, Italy)
Play Directing/ Stage Directing
Eugène Ionesco's play The Bald Soprano (2013) /Tehran
Eugène Ionesco's play Jack, or the Submission (1997) /Tehran
Eugène Ionesco's play Maid to Marry (1997) /Tehran
Eugène Ionesco's play The Bald Soprano (1997) /Tehran
Eugène Ionesco's play The Bald Soprano (1995) /Tehran
Published Stories
The Big Overcoat (2010) /Short Story Collection
The Sound of Train Whistling (1999) /Short Story
Solo Exhibition
Niyavaran Cafe Art Gallery /Photography /2007 /Tehran
Group Exhibition
Youth Cinéma Institute /Photography /1991 /Tehran
Educational-backgrounds
Tehran Azad University /Master of Play Directing /1996-1997 /Tehran
Tehran Azad University /Bachelor of Industrial Engineering /1995 /Tehran
Studying Theatre for two years and joining to /1994 /Tehran
Experimental Theater Institute
Art University /Film Directing Major /1992-1994 /Tehran
Studying Photography at Youth Cinema Institute /1990 /Tehran
and working as a Professional Photographer
High School Diploma /1989 /Tehran
See also
Intellectual movements in Iran
Iranian New Wave (cinema)
Cinema of Iran
Humanitarianism
References
External links
Khastegi (Sex My Life) official web site
Iranian film directors
Iranian screenwriters
Iranian documentary filmmakers
Iranian photographers
Persian-language film directors
Film people from Tehran
1969 births
Living people
Iranian male short story writers
|
"Who Are You Now?" is the sixth episode of the ninth season of the post-apocalyptic horror television series The Walking Dead, which aired on AMC on November 11, 2018. This episode is the first not to have Andrew Lincoln credited in the main cast billing as Rick Grimes and the first not to have Lauren Cohan (Maggie Greene) credited since season 2.
This episode marks the first appearance of The Whisperers, a prominent antagonistic group featured in the comics following the defeat of Negan and the Saviors.
Plot
Michonne narrates over scenes of the survivors continuing to rebuild their various communities and struggling to survive, six years after Rick Grimes' apparent death.
Judith leads Magna's group to Aaron, Eugene, Laura, and Rosita, who are hesitant about protecting them, but Judith insists. They travel to Alexandria, just as Michonne returns from a scavenging run. Michonne sizes them up and knows that Judith did not follow the proper procedure for bringing new survivors in, but agrees to let them stay overnight and to hear their case the following morning in front of their council which includes the former high-ranking Savior Laura, now a trusted member of the community.
At the Kingdom, Ezekiel recognizes the needs to have a trained blacksmith to help effect repairs, and decides to have Henry travel to Hilltop to be apprenticed in the art. Carol brings Henry along with a number of supplies she plans to bring to the Hilltop too. En route, they are attacked by the remains of the Saviors, aside from those who joined the other communities, led by Carol's old enemy Jed and former Savior lieutenant Regina. Jed reveals that the Sanctuary has fallen and the remaining Saviors have become marauders to survive. They steal the supplies, among them the ring that Ezekiel gave to Carol, and promise they will never see them again. That night, after setting up camp, Carol sneaks out to find the Saviors camp, douses the area in gasoline, and sets them ablaze, killing them while recovering her ring. They continue on the next day, rendezvousing with Daryl who has taken to living on his own.
In the morning, the council asks Magna's group questions similar to what Rick would ask of potential allies. While the other council members seem accepting of their answers, Michonne sees that Magna has a prison tattoo, and a hidden knife, and demands she explain herself. She cannot do so, and the council votes to have them evicted from the community after Yumiko is treated.
Rosita and Eugene go to take some radio equipment to set up on a nearby water tower for Gabriel, who is trying to see if any other communities can make contact. They note that a large herd had passed, but believe it will not interfere with their goal. As Eugene places the radio equipment, he spots the horde now aiming for them. He spooks their horses as he tries to climb down, and Rosita rushes to recover essential gear from their wagon. Eugene is forced to jump the last bit off the tower and injures his leg, and after Rosita gets him a shovel as a makeshift crutch, the two escape.
Judith, who has developed a rapport with the imprisoned Negan, is upset at Michonne for not trusting her. Michonne mulls over her decision as she tends to her and Rick's child, Rick Jr. (RJ). As the group is about to be evicted, Michonne has a change of heart and says they likely will be able to stay over at Hilltop, and will escort them personally there along with Siddiq and former Savior D.J. to watch over Yumiko's recovery.
As Eugene and Rosita make it into the woods, the horde surprisingly stays on their tail, and only once they find a wet ditch and cover themselves in mud does the horde seem to ignore their presence. They hear faint whispers of "Where are they?" and "They must be close, don't let them get away" as the horde passes.
Production
From this episode, Daryl Dixon (Norman Reedus) becomes the main protagonist of the series. This is the first episode broadcast following the departure of Andrew Lincoln as Rick Grimes, which included a six-year time jump from the events of his apparent death. Among changes include Khary Payton (King Ezekiel) being promoted to the main cast as his name appears in the opening credits. This episode introduces Matt Lintz as the older Henry; Matt is the older brother of Macsen Lintz who had played Henry in previous seasons, and brother to Madison Lintz, who had played Carol's daughter Sophia on the first two seasons of the show.
This is the first episode to feature a significant appearance by the Whisperers, which in the comics are a group of human survivors that wear the skin of walkers to mask themselves, and speak only in whispers to avoid drawing the walkers' attention. Within the comics, Rick's son, Carl Grimes, was an essential element to that arc, but within the show, Carl (Chandler Riggs) had been killed off in the middle of the eighth season. According to showrunner Angela Kang, to adapt the comic's story, they plan on taking some of the role that Carl had and giving them to Judith, now aged similarly to Carl, which allows them to follow the main threads of the comic's Whisperer arc but with a new take using Judith's personality.
Reception
Critical reception
"Who Are You Now?" received positive reviews from critics. On Rotten Tomatoes, the episode has an approval rating of 83% with an average score of 6.92 out of 10, based on 16 reviews. The critical consensus reads: "Who Are You Now?" swiftly establishes a new world order in The Walking Dead without Rick Grimes, effectively conveying the progression of the survivors, but some viewers may feel adrift in what feels like the umpteenth re-set for the series.
Erik Kain of Forbes praised the episode and the reboot of the series, saying “I’m still shocked by how good ‘’The Walking Dead’’ has gotten, and while I was worried before (and still have some doubts) I don’t think it’s going to suffer too much without Rick. His “death” serves as an interesting catalyst for character growth throughout the community, as they no longer have the luxury of one leader calling all the shots.”
Ratings
"Who Are You Now?" received a total viewership of 5.40 million with a 2.0 rating in adults aged 18–49. It was the highest-rated cable program of the night, and the episode was steady in viewership from the previous week.
References
External links
"Who Are You Now?" at AMC
2018 American television episodes
The Walking Dead (season 9) episodes
|
Viola frank-smithii is a rare species of violet known by the common name Frank Smith's violet. It is endemic to Utah in the United States, where it is known only from Logan Canyon in the Bear River Range in Cache County.
This perennial herb produces a stem few centimeters long, which is surrounded by the withered leaves of previous seasons and new leaves, which are heart-shaped. The flower is pale purple except for the lowest petal, which is greenish. Blooming occurs in May and June.
This plant grows on vertical limestone cliffs, often in spots shaded by Douglas-fir (Pseudotsuga menziesii), Rocky Mountain maple (Acer glabrum), and bigtooth maple (A. grandidentatum). Other plants in the habitat include pink alumroot (Heuchera rubescens), mat rock spiraea (Petrophyton caespitosum), narrowleaf wildparsley (Musineon lineare), Maguire's primrose (Primula cusickiana var. maguirei), Cronquist's fleabane (Erigeron cronquistii), cutleaf mountain mahogany (Cercocarpus ledifolius), Watson's prickly phlox (Leptodactylon watsonii), bluebells (Mertensia oblongifolia), and various mosses.
References
External links
frank-smithii
Flora of Utah
Cache County, Utah
|
```go
//
//
// path_to_url
//
// Unless required by applicable law or agreed to in writing, software
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
package autodetection
import (
"net"
"regexp"
"strings"
log "github.com/sirupsen/logrus"
cnet "github.com/projectcalico/calico/libcalico-go/lib/net"
)
// Interface contains details about an interface on the host.
type Interface struct {
Name string
Cidrs []cnet.IPNet
}
// GetInterfaces returns a list of all interfaces, skipping any interfaces whose
// name matches any of the exclusion list regexes, and including those on the
// inclusion list.
func GetInterfaces(getSystemInterfaces func() ([]net.Interface, error), includeRegexes []string, excludeRegexes []string, version int) ([]Interface, error) {
netIfaces, err := getSystemInterfaces()
if err != nil {
log.WithError(err).Warnf("Failed to enumerate interfaces")
return nil, err
}
var filteredIfaces []Interface
var includeRegexp *regexp.Regexp
var excludeRegexp *regexp.Regexp
// Create single include and exclude regexes to perform the interface
// check.
if len(includeRegexes) > 0 {
if includeRegexp, err = regexp.Compile("(" + strings.Join(includeRegexes, ")|(") + ")"); err != nil {
log.WithError(err).Warnf("Invalid interface regex")
return nil, err
}
}
if len(excludeRegexes) > 0 {
if excludeRegexp, err = regexp.Compile("(" + strings.Join(excludeRegexes, ")|(") + ")"); err != nil {
log.WithError(err).Warnf("Invalid interface regex")
return nil, err
}
}
// Loop through interfaces filtering on the regexes. Loop in reverse
// order to maintain behavior with older versions.
for idx := len(netIfaces) - 1; idx >= 0; idx-- {
iface := netIfaces[idx]
include := (includeRegexp == nil) || includeRegexp.MatchString(iface.Name)
exclude := (excludeRegexp != nil) && excludeRegexp.MatchString(iface.Name)
if include && !exclude {
if i, err := convertInterface(&iface, version); err == nil {
filteredIfaces = append(filteredIfaces, *i)
}
}
}
return filteredIfaces, nil
}
// convertInterface converts a net.Interface to our Interface type (which has
// converted address types).
func convertInterface(i *net.Interface, version int) (*Interface, error) {
log.WithField("Interface", i.Name).Debug("Querying interface addresses")
addrs, err := i.Addrs()
if err != nil {
log.Warnf("Cannot get interface address(es): %v", err)
return nil, err
}
iface := &Interface{Name: i.Name}
for _, addr := range addrs {
addrStr := addr.String()
ip, ipNet, err := cnet.ParseCIDR(addrStr)
if err != nil {
log.WithError(err).WithField("Address", addrStr).Warning("Failed to parse CIDR")
continue
}
if ip.Version() == version {
// Switch out the IP address in the network with the
// interface IP to get the CIDR (IP + network).
ipNet.IP = ip.IP
log.WithField("CIDR", ipNet).Debug("Found valid IP address and network")
iface.Cidrs = append(iface.Cidrs, *ipNet)
}
}
return iface, nil
}
```
|
Geoffrey Luc Fabien Malfleury (born 20 January 1988) is a Martiniquais professional footballer who plays for AS Cannes. During his career, he also played in France, Switzerland, Portugal and Cyprus for teams such as Stade Nyonnais, Le Havre, Tours, União da Madeira, Alki Oroklini and FC Voluntari, among others.
Club career
Malfleury was born in Aubervilliers, France.
Wigry Suwałki
Malfleury joined Polish club Wigry Suwałki on 15 April 2019, as a last minute transfer. After passing the medicals and signing the contract, he joined the team that was going to face Podbeskidzie Bielsko-Biała. Efforts were made to authorize him to perform in this match, but it failed and the club could not even be included in the match protocol. A day later, it turned out that he would not be able to appear in any game for the club, because the reason why he terminated his contract with FC Voluntari was not acceptable, according to the Polish Football Association, and they refused to register him. The regulations of Polish Football Association allow only players who have terminated their contracts by mutual consent with their former teams or because the player did not play throughout the year. Eventually, Malfleury's contract with the club was terminated after only a few days.
International career
At international level, Malfleury plays for the Martinique national team.
References
External links
1988 births
Living people
French men's footballers
French people of Martiniquais descent
Martiniquais men's footballers
Martinique men's international footballers
Men's association football forwards
Championnat National players
Championnat National 2 players
Championnat National 3 players
Liga Portugal 2 players
Cypriot First Division players
Ligue 2 players
Liga I players
Swiss Challenge League players
FC Stade Nyonnais players
Red Star F.C. players
FC Istres players
Le Havre AC players
Tours FC players
C.F. União players
Alki Oroklini players
FC Voluntari players
Wigry Suwałki players
AS Cannes players
French expatriate men's footballers
Martiniquais expatriate men's footballers
French expatriate sportspeople in Switzerland
Expatriate men's footballers in Switzerland
French expatriate sportspeople in Portugal
Expatriate men's footballers in Portugal
French expatriate sportspeople in Cyprus
Expatriate men's footballers in Cyprus
French expatriate sportspeople in Romania
Expatriate men's footballers in Romania
French expatriate sportspeople in Poland
Expatriate men's footballers in Poland
|
Maitree is an Indian television series that premiered on 7 February 2023 on Zee TV. Produced under Sunshine Productions, it is starring Shrenu Parikh, Bhaweeka Chaudhary, Samarth Jurel, Zaan Khan and Namish Taneja.
Synopsis
Maitree and Nandini are best friends since childhood but when they grow up, Maitree feels betrayed by Nandini due to some unknown reasons and a rift gets created between the friendship of the duo.
Plot
Maitree and Nandini are best friends and, to avoid being separated from each other, hope to marry into the same house.
15 years later
Nandini and Maitree are now grown up. Nandini is married to Aashish. They are also expecting their first child. Aashish is an advocate by profession. Eventually Maitree marries Saransh, Aashish's younger cousin. Unknown to anyone, Saransh is a drug addict. Saransh and Maitree; Nandini and Aashish get into a car accident. Aashish and Maitree luckily survive the accident. Nandini falls into a coma after delivering a baby boy while Saransh succumbs to his injuries and dies. Saransh's mother, Sona Tiwari blames Maitree for Saransh's death. Nandini's mother, Advocate Vasundhara Singh Rathore accidentally mentions in front of Aashish that Saransh was a drug addict, which shocks him. Maitree decides to take care of Nandini and Aashish's son. Vasundhara informs Maitree that Saransh was a drug addict. Maitree is devastated and confronts Aashish. Aashish tries to conceal the truth but fails as Vasundhara had sent Saransh's reports to Maitree.
Aashish gets arrested and Vasundhara uses false evidences in court against him to prove that he is a drug dealer. But later, he gets bail and attends his son's naming ceremony. Aashish and Nandini's son is named Nandish ( a combination of their name). Maitree and Aashish decide to raise Nandish.
6 years later
Nandini comes out of coma and tries to bond with Nandish, who doesn't want to get rid of Maitree. As a result, Nandini turns against Maitree and starts to think that she is snatching Nandish from her. She tries to create difficulties in Maitree's life and turns her enemy. After a series of events, Nandish accepts Nandini as his mother but still continues to refer to Maitree as "maa" (mother). For Nandini's happiness, Maitree leaves Tiwari Mansion. She meets a fun-loving man, Harsh, and marries him. Later, it's revealed that Harsh is actually the half-brother of Saransh from his father's side. Both Maitree and Harsh move into the Tiwari Mansion again. Harsh's mother, Kamna, tries to torture and kill Maitree but is exposed. Aashish dies, in an attempt to save Nandini from a fire. Saransh who is actually alive turns furious when he discovers that Maitree has remarried. He returns back, and pretends to be Aashish, to seek revenge on Maitree.
Maitree gets pregnant and gives birth to a boy child. Saransh steals the child and misinforms the family that he has murdered him. Harsh blames Maitree for the possible death of their son and throws her out of the Tiwari house. Saransh hands Maitree's child to a greedy woman, who, leaves the child in the trash. Maitree finds her child and decides to raise him, but she is unaware that it's her biological child.
7 years later
Maitree lives with her son, Swayam. On the other hand, Harsh still blames Maitree for their son's death and has adopted a girl, Juhi. For the sake of the family, Harsh and Nandini get married. Maitree is eventually engaged to her boss, Yash. Saransh comes back and tells Maitree and Harsh that Swayam is their son. But due to Swayam's illness, the doctor tells Harsh and Maitree that they have to produce Swayam's sibling who will donate bone marrow to Swayam. Maitree and Harsh reconcile for saving Swayam's life. Maitree breaks her engagement with Yash and Nandini breaks her marriage with Harsh. Nandini gradually realizes that she committed a grave mistake by breaking her marriage with Harsh for saving Swayam's life. She turns revengeful and join hands with Saransh to kill Maitree. Sona learns about Nandini and Saransh's plan to kill Maitree. As Sona calls Maitree to expose Nandini and Saransh, Nandini pushes her from the terrace and she dies.
Cast
Main
Shrenu Parikh as Maitree Tiwari (nee Mishra): Dinesh and Sadhana's daughter; Sachin's sister; Saransh's former wife; Harsh's wife; Swayam and Vedika's mother; Juhi's adoptive mother; Yash's former fiancée (2023)
Zara Khan as Child Maitree Mishra (2023)
Samarth Jurel as Harsh Tiwari: Madan and Kamna's son; Sona's step-son; Saransh's step-brother; Aashish's cousin; Nandini's ex-husband; Maitree's husband; Swayam and Vedika's father; Juhi's adoptive father (2023)
Recurring
Bhaweeka Chaudhary as Nandini Tiwari (nee Singh Rathore): Vasundhara's daughter, Rajkumar and Princey' cousin; Aashish's widow; Harsh ex–wife; Nandish's mother; Sona's murderer (2023)
Urvi Upadhyay as Child Nandini Singh Rathore (2023)
Namish Taneja as Advocate Aashish Tiwari: Omprakash and Kusum's son; Saransh and Harsh's cousin; Nandini's late husband; Nandish's father (2023)
Zaan Khan / Kunal Karan Kapoor as Saransh Tiwari: Sona and Madan's son; Aashish's cousin and murderer; Maitree's ex–husband; Harsh's step-brother; Kamna's step-son (2023) / (2023)
Ishita Ganguly as Swarnmani: An Ichchadhari Naagin; Rani's daughter; Harsh's one sided obsessive lover (2023)
Aadesh Chaudhary as Yash Thakur: Maitree's boss turned ex-fiancée; Swayam's father-figure (2023)
Ananya Khare as Sona Tiwari: Madan's late wife; Saransh's mother; Harsh's step-mother; Swayam's step-grandmother; Juhi's adoptive step-grandmother (2023) (Dead)
Manish Khanna as Madan Tiwari: Sona's widower; Kamna's husband; Saransh and Harsh's father; Swayam and Vedika's grandfather; Juhi's adoptive grandfather (2023)
Maleeka Ghai as Kamna Tiwari: Madan's second wife; Harsh's mother; Saransh's stepmother; Swayam and Vedika's grandmother; Juhi's adoptive grandmother (2023)
Khalida Jan as Advocate Vasundhara Singh Rathore: Nandini's mother; Nandish's maternal grandmother; a famous advocate; Rajkumar and Princey's aunt; Neelu's sister–in–law; Chakramani's sister (2023)
Saksham Shringirushi as Nandish Tiwari: Aashish and Nandini's son; Maitree's nephew; Harsh's stepson; Vasundhara's maternal grandson; Omprakash, Kusum, Sona and Madan's grandson; Swayam and Vedika's elder cousin (2023)
Gantavya Sharma as Child Nandish Tiwari (2023)
Azima Shaikh as Baby Nandish Tiwari (2023)
Ranav Sharma as Swayam Tiwari: Harsh and Maitree's son; Vedika's brother; Aashish and Nandini's nephew; Nandish's younger cousin; Madan and Kamna's grandson; Sona's stepgrandson (2023)
Trisha Bisht as Juhi Tiwari: Harsh's adopted daughter (2023)
Vijaylaxmi Singh as Sadhana Mishra: Maitree and Sachin mother; Dinesh's wife; Swayam and Vedika's maternal grandmother (2023)
Pratish Vora as Omprakash Tiwari: Aashish's father; Madan's brother; Kusum's husband; Nandini's father–in–law ; Nandish's grandfather; Harsh and Saransh's uncle (2023–present)
Sunny Saini as Kabootar: A Drugs Peddler (2023)
Naman Arora as Rajkumar: Nandini's cousin; Princey's brother; Chakramani and Neelu's son (2023)
Govind Khatri as Chakramani: Vasundhara's brother; Princey and Rajkumar's father; Nandini's uncle; Neelu's husband; Sachin's father–in–law (2023)
Smita Gupta as Kusum Omprakash Tiwari: Omprakash's wife; Aashish's mother; Nandini's mother–in–law; Nandish's grandmother; Saransh's and Harsh's aunt (2023)
Chirag Kapoor as Sachin Mishra: Sadhana and Dinesh's son; Maitree's brother; Princey's husband; Chakramani and Neelu's son-in-law; Swayam's maternal uncle (2023)
Sangeeta Adhikari as Neelu Singh: Princey and Rajkumar's mother; Vasundhara's sister–in–law; Nandini's aunt; Chakramani's wife; Sachin's mother–in–law (2023)
Diksha Tiwari as Princey Mishra (née Singh): Neelu and Chakramani's daughter; Nandini's cousin; Rajkumar's sister; Maitree's sister–in–law; Sachin's wife (2023)
Amit Kapoor as DSP Dinesh Mishra: Maitree and Sachin's father; a police officer; Saransh and Harsh's former father in law; Sadhana's husband; Swayam and Vedika's maternal grandfather; Princey's father–in–law (2023)
Sapan Chaudhary as Vivek Oberoi (2023)
Vishal Kotian as Bajrangi: An autorickshaw driver (2023)
Ram Awana as Trikaal: A tantik (2023) (Dead)
Hemant Choudhary as Nageshwar: A Shiv Bhakt (2023) (Dead)
Shweta Dadhich as Rani: An Ichchadhari Naagin; Swarnmani's mother (2023)
Production
The series was announced on Zee TV by Sunshine Productions. Shrenu Parikh, Bhaweeka Chaudhary, Zaan Khan and Namish Taneja were signed as the lead. The launch event for the series was held on 4 February 2023.
See also
List of programmes broadcast by Zee TV
References
External links
Maitree at ZEE5
2023 Indian television series debuts
2023 Indian television series endings
2020s Indian television series
Hindi-language television shows
Zee TV original programming
|
Jean-Baptiste-Alphonse is a given name. Notable people with the name include:
Jean-Baptiste Alphonse Karr (1808-1890), French critic, journalist and novelist
Jean-Baptiste-Alphonse Lusignan (1843-1893), French-Canadian writer
See also
Alphonse (disambiguation)
French masculine given names
Masculine given names
Compound given names
|
Zalemi (, also Romanized as Z̧ālemī) is a village in Alamarvdasht Rural District, Alamarvdasht District, Lamerd County, Fars Province, Iran. At the 2006 census, its population was 46, in 10 families.
References
Populated places in Lamerd County
|
Cat Spectacular! is the debut studio album by indie pop band Bearsuit. It was released in 2004 on Fortuna Pop!.
Track listing
"Welcome Bearsuit Space hotel" – 2:04
"Cookie Oh Jesus" – 2:57
"Rodent Disco" – 2:08
"Cherryade" – 2:57
"I Feel the Heat of the Light from Heaven" – 0:48
"Going Steady" – 2:30
"Itsuko Got Married" – 2:32
"Prove Katie Wrong" – 3:04
"TSTM" – 3:11
"Diagonal Girl" – 1:26
"Kiki Keep Me Company" – 2:00
"On Your Special Day" – 3:22
References
Bearsuit albums
2004 albums
Fortuna Pop! Records albums
|
Louis Kotra Uregei (4 February 1951 – 20 October 2022) was a New Caledonian syndicalist and politician.
Uregei was born in Nouméa on 4 February 1951. He was a member of the Labour Party, and was a Kanak who supported independence from France.
Uregei died on 20 October 2022, at the age of 71.
References
1951 births
2022 deaths
Kanak people
New Caledonia politicians
Members of the Congress of New Caledonia
People from Nouméa
|
```yaml
apiVersion: release-notes/v2
kind: bug-fix
area: security
issue:
- path_to_url
releaseNotes:
- |
**Fixed** an issue where RBAC updates were not sent to older proxies after upgrading istiod to 1.17.
```
|
The striped field mouse (Apodemus agrarius) is a rodent in the family Muridae. The range of this species stretches from Eastern Europe to Eastern Asia.
Synonyms
Accepted synonyms include Apodemus albostriatus (Bechstein, 1801), Apodemus caucasicus (Kuznetzov, 1944), Apodemus chejuensis (Johnson and Jones, 1955), Apodemus coreae (Thomas, 1908), Apodemus gloveri (Kuroda, 1939), Apodemus harti (Thomas, 1898), Apodemus henrici (Lehmann, 1970), Apodemus insulaemus (Tokuda, 1939 and 1941), Apodemus istrianus (Kryštufek, 1985), Apodemus kahmanni (Malec and Storch, 1963), Apodemus karelicus (Ehrström, 1914), Apodemus maculatus (Bechstein, 1801), Apodemus mantchuricus (Thomas, 1898), Apodemus nicolskii (Charlemagne, 1933), Apodemus nikolskii (Migouline, 1927), Apodemus ningpoensis (Swinhoe, 1870), Apodemus ognevi (Johansen, 1923), Apodemus pallescens (Johnson and Jones, 1955), Apodemus pallidior (Thomas, 1908), Apodemus pratensis (Ockskay, 1831), Apodemus rubens (Oken, 1816), Apodemus septentrionalis (Ognev, 1924), Apodemus tianschanicus (Ognev, 1940) and Apodemus volgensis (Kuznetzov, 1944).
Description
The upper parts of the striped field mouse are grayish brown with a rusty tint with a prominent mid-dorsal black stripe. The under parts are paler and grayish. The ears and eyes are relatively small. The body length reaches 126 mm, with a tail of up to 90 mm, and it weighs up to 50 g.
Distribution and habitat
The striped field mouse has an extensive but disjunct distribution, split into two ranges. The first reaches from central and eastern Europe to Lake Baikal (Russia) in the north, and China in the south. The second includes parts of the Russian Far East and from there reaches from Mongolia to Japan. Its expansion across Eastern Europe appears to be relatively recent; the species is thought to have reached Austria in the 1990s.
The striped field mouse inhabits a wide range of habitats including the edges of woodlands, grasslands and marshes, pastures and gardens, and urban areas. In the winter, it may be found in haystacks, storehouses, and dwellings.
Ecology
The striped field mouse excavates a short burrow with a nesting chamber at a shallow depth. It is nocturnal during the summer, but mainly diurnal in the winter. Its diet varies and includes green parts of plants, roots, seeds, berries, nuts, and insects. Three to five broods are born in a year with an average of six young per litter and the population can build up rapidly in a good season. Limiting factors include frequent torrential rains during a warm season, early soil freezing, and predation.
Interaction with humans
The striped field mouse is a common agricultural pest within its range, particularly in years of population outbreaks, and a natural vector of diseases commonly associated with murine rodents.
See also
List of mammals of Korea
List of mammals of Russia
List of mammals of China
List of mammals of Ukraine
List of mammals of Belarus
List of mammals of Lithuania
List of mammals of Latvia
List of mammals of Estonia
List of mammals of Finland
List of mammals of Poland
List of mammals of Germany
List of mammals of Hungary
List of mammals of Romania
References
External links
Apodemus agrarius. IUCN
Mammals of Asia
Rodents of Europe
Apodemus
Mammals described in 1771
Taxa named by Peter Simon Pallas
|
This list embraces topographical watersheds and drainage basins and other topics focused on them.
Terms – different uses
The source of a river or stream is the furthest place from its estuary or confluence with another river, and is alternatively known as a "watershed" and/or "headwaters" in some countries.
The confluence is the meeting of two rivers or streams, and may sometimes be known as "headwaters".
A drainage basin is an area of land where all surface water converges to a single point at a lower elevation. In North America, "watershed" is used for this sense, while elsewhere terms like "catchment" or "drainage area" are used.
A drainage divide is the line that separates neighboring drainage basins. In English-speaking countries outside of North America, this is normally known as a "watershed".
Drainage divides
Drainage divides category
The European Watershed, the line dividing the drainage basins of the major rivers of Europe
The Drainage divides, the lines dividing drainage basins in North America (i.e.: Great Basin Divide and Great Basin hydrologic region)
Watersheds and drainage basins
Basins category
Drainage basins category
List of drainage basins by area: A worldwide list of watersheds
Drainage basins of the Atlantic Ocean category
Drainage basins of the Arctic Ocean category
Watersheds - basins by country
Watersheds of Canada category
Watersheds of the United States category
Drainage systems of Australia category
Examples
Lake Erie Watershed (Pennsylvania)
Guadalupe Watershed
Hudson River Watershed
Humber Watershed
Turtle Creek Watershed
Watershed and drainage basin organisations and institutions
Management organisations
Watershed management, the management of drainage basins
Watershed Protection and Flood Prevention Act, a United States law controlling drainage and water storage
Watershed district (Minnesota), one of a number of government entities in the US state of Minnesota which monitor and regulate the use of water in drainage basins
Watershed district (Russia), one of twenty groups of water bodies listed in the Water Code of the Russian Federation
Examples
Council for Watershed Health
Great Swamp Watershed Association
Minnehaha Creek Watershed District
Santa Fe Watershed Association
Walla Walla Basin Watershed Council
Yukon River Inter-Tribal Watershed Council
Study institutions
University of South Carolina Upstate: Center for Watershed Ecology
Other uses
Watershed College, Zimbabwe
Watershed Media Centre, Bristol, England
Stony Brook Millstone Watershed Arboretum
"River of Words"; watersheds as subject poetry competition
-
List of Watershed topics
Watershed
Water and the environment
|
George Latimer Apperson ISO, (1857–1937) was a school inspector and man of letters.
He was editor of The Antiquary from 1899–1915, and a major contributor to the Oxford English Dictionary, both submitting large numbers of quotations and serving as subeditor for parts.
Apperson was created Companion of the Imperial Service Order in 1903, for his service in the Scotch Education Department within the Scottish Office at Whitehall.
Works
The following list has come from a search on the Jisc Library Hub Discover database., with details checked by looking at advertisements and reviews for the works at the time of publication in the British Newspaper Archive.
Notes
References
External links
1857 births
1937 deaths
British lexicographers
British writers
Companions of the Imperial Service Order
|
Charles Hardinge, 1st Baron Hardinge of Penshurst, (20 June 1858 – 2 August 1944) was a British diplomat and statesman who served as Viceroy and Governor-General of India from 1910 to 1916.
Background and education
Hardinge was the second son of Charles Hardinge, 2nd Viscount Hardinge, and the grandson of Henry Hardinge, 1st Viscount Hardinge, a former Governor-General of India. He was educated Cheam School, Harrow School and at Trinity College, Cambridge.
Career
Hardinge entered the diplomatic service in 1880. He was appointed the first secretary at Tehran in 1896, and the first secretary at Saint Petersburg in 1898, when he was promoted over the heads of seventeen of his seniors. While in Russia, he acted as chargé d'affaires in the ambassador's absence (including in late 1902). After a brief tenure as Assistant Under-Secretary for Foreign Affairs, he became Ambassador to Russia, in 1904. In 1906, he was promoted to the position of Permanent Under-Secretary at the Foreign Office, where despite his own conservatism, he worked closely with Liberal Foreign Secretary Sir Edward Grey. In 1907, he declined the post of Ambassador to the United States. In 1910, Hardinge was raised to the peerage as Baron Hardinge of Penshurst, in the County of Kent, and appointed by the Asquith government as Viceroy of India.
His tenure was a memorable one and included the visit of King George V and the Delhi Durbar of 1911, as well as the move of the capital from Calcutta to New Delhi in 1911. Although Hardinge was the target of assassination attempts with bomb attack by the Indian nationalists Rashbehari Bose and Sachin Sanyal, his tenure included an improvement of relations between the British administration and the nationalists, as a consequence of the implementation of the Morley-Minto reforms of 1909, and of Hardinge's own admiration for Mohandas Gandhi and criticism of the South African government's anti-Indian immigration policies.. Hardinge founded the Dhamrai Hardinge High School and College in 1914. The Hardinge Railway Bridge, now in Bangladesh, was constructed and inaugurated (1915) in his tenure. It has continued to serve a crucial a role in the country's railway network.
Hardinge's efforts paid off in 1914 during the First World War. Improved colonial relationships allowed Britain to deploy nearly all of the British troops in India as well as many native Indian troops to areas outside India. In particular, the British Indian Army played a significant (though initially mismanaged) role in the Mesopotamian campaign.
In 1916, Hardinge returned to his former post in England as Permanent Under-Secretary at the Foreign Office, serving with Arthur Balfour. In 1920, he became ambassador to France before his retirement in 1922.
Honours
As well as the distinction of being awarded six British knighthoods, he also gained foreign awards:
Knight of Grace of Order of St. John of Jerusalem in England.
Grand officer in the Legion of Honour, from France.
Grand cross of the Crown of Italy.
Order of the Immaculate Conception of Vila Viçosa, from Portugal.
Order of the Redeemer, from Greece.
Order of Charles III, from Spain.
Order of St. Olav, from Norway.
Order of Alexander Nevsky, from Russia.
Order of the Dannebrog, from Denmark.
Order of Vasa, from Sweden.
Personal life
He married his first cousin Winifred Selina Sturt on 17 April 1890, over the objections of her family, due to the couple's consanguinity and Hardinge's financial status. She was the second daughter of Henry Gerard Sturt, first Baron Alington, by his first wife Lady Augusta Bingham, who was the first daughter of George Charles Bingham, third Earl of Lucan. The couple had a daughter, Diamond Hardinge (1900-1927), and two sons, Edward and Alexander (1894–1960), who succeeded him as Baron Hardinge of Penshurst.
The first Baron Hardinge of Penshurst is commemorated at St John the Baptist, Penshurst. His eldest son, The Hon. Edward Hardinge, died 18 December 1914, aged 22, from wounds while serving as a Lieutenant with the 15th (The King's) Hussars in France. He was also the godson of Alexandra of Denmark. Diamond Hardinge was a bridesmaid at the wedding of Prince Albert, Duke of York, and Lady Elizabeth Bowes-Lyon on 3 May 1923.
Styles and honours
Hardinge had the unusual distinction of being a non-royal recipient of six British knighthoods.
June 1858 – July 1895: The Honourable Charles Hardinge
July 1895 – April 1903: The Honourable Charles Hardinge
April 1903 – 7 March 1904: The Honourable Charles Hardinge
7–26 March 1904: The Right Honourable Charles Hardinge
26 March – 28 April 1904: The Right Honourable Sir Charles Hardinge
28 April – 10 May 1904: His Excellency The Right Honourable Sir Charles Hardinge
10 May 1904 – 2 January 1905: His Excellency The Right Honourable Sir Charles Hardinge
2 January – 9 November 1905: His Excellency The Right Honourable Sir Charles Hardinge
9 November 1905 – June 1906: The Right Honourable Sir Charles Hardinge
June 1906 – 23 June 1910: The Right Honourable Sir Charles Hardinge
23 June – 2 August 1910: The Right Honourable Sir Charles Hardinge
2 August – 23 November 1910: The Right Honourable The Lord Hardinge of Penshurst
23 November 1910 – 24 March 1916: His Excellency The Right Honourable The Lord Hardinge of Penshurst Viceroy & Governor-General of India
24 March – 4 April 1916: His Excellency The Right Honourable The Lord Hardinge of Penshurst Viceroy & Governor-General of India
4 April 1916 – 27 November 1920: The Right Honourable The Lord Hardinge of Penshurst
27 November 1920 – 1 February 1923: His Excellency The Right Honourable the Lord Hardinge of Penshurst HM Ambassador Extraordinary & Plenipotentiary to the French Republic
1 February 1923 – 2 August 1944: The Right Honourable The Lord Hardinge of Penshurst
Books written
Old Diplomacy
My Indian Years covers (1910-16)
See also
Delhi conspiracy case
References
Sources
Articles
Further reading
Hardinge Bridge
External links
Hardinge of Penshurst, Baron (UK, 1910), genealogy
Hardinge's entry at Who's Who
Viceroys of India
1910s in British India
Members of HM Diplomatic Service
1858 births
1944 deaths
Alumni of Trinity College, Cambridge
Barons in the Peerage of the United Kingdom
Companions of the Imperial Service Order
Deputy Lieutenants of Kent
Diplomatic peers
Knights of the Garter
Knights Grand Cross of the Order of the Bath
Knights Grand Commander of the Order of the Star of India
Knights Grand Commander of the Order of the Indian Empire
Knights Grand Cross of the Order of St Michael and St George
Knights Grand Cross of the Royal Victorian Order
Younger sons of viscounts
Ambassadors of the United Kingdom to Russia
Ambassadors of the United Kingdom to France
Permanent Under-Secretaries of State for Foreign Affairs
People from Penshurst
Members of the Privy Council of the United Kingdom
Barons created by George V
19th-century British diplomats
20th-century British diplomats
People educated at Harrow School
|
Zale'n-gam or Zalengam (Thadou-Kuki) dialect for 'land of freedom'), is a proposed state by Kuki people, with the intention of uniting all the Kuki tribes under a single government. The proposed state's main proponents are the Kuki National Organisation and its armed wing, the Kuki National Army.
Zalengam is distinct from Kukiland, a proposed Indian state to be carved from the hilly area of the southern part of Manipur.
Territory and people
The territorial claims of Zale'n-gam encompass a historical region consisting of the territories traditionally inhabited by the Kukis, but which never have had their own state, including:
In India: Parts of Manipur, Mizoram, Nagaland and the Karbi Anglong District of Assam.
In Burma: The Kabaw Valley and parts of Sagaing Division and Chin State.
In Bangladesh: The Chittagong Hill Tracts
There is also a proposal to create two subdivisions of the proposed state: 'Eastern Zalengam' and 'Western Zalengam', the former within Burma and the latter in India.
Kuki tribes that would be part of this proposed state include the Bom, Biate, Gangte, Halam, Hmar, Kharam, Koireng, Kom, Lai, Mara, Purum, Saihriem, and the Thadou, among others.
See also
Kuki Inpi
References
Independence movements
Kuki tribes
Proposed countries
|
Idiots Deluxe is a 1945 short subject directed by Jules White starring American slapstick comedy team The Three Stooges (Moe Howard, Larry Fine and Curly Howard). It is the 85th entry in the series released by Columbia Pictures starring the comedians, who released 190 shorts for the studio between 1934 and 1959.
Plot
Moe is on trial for assaulting Larry and Curly. Moe appeals to the judge (Vernon Dent), claiming he is a sick man who was instructed by his doctor to maintain peace and quiet. This peace is broken by Larry and Curly who are loudly rehearsing their "The Original Two-Man Quartet" routine performing "She'll Be Coming 'Round the Mountain". Moe cracks, and wraps Curly's trombone slide around the quartet's necks. Realizing Moe is in bad shape, Larry and Curly decide to take their ailing leader on a hunting trip to relieve his stress. Moe agrees, and the Stooges start packing.
No sooner do they arrive in an empty cabin when a hungry bear devours some eggs and potatoes while Moe has his back turned. His nerves double frayed, Moe asks Larry and Curly to pursue the bear. One thing leads to another, and the bear ends up behind the wheel of the Stooges' car, and ultimately wrecks it.
Back in the courtroom, Moe ends his story by concluding that he must go back to bed for six additional months. The judge takes pity on him, and finds him not guilty. The judge then returns Moe's axe, and Moe immediately goes after Larry and Curly with it.
Production notes
Idiots Deluxe was filmed on October 5–9, 1944, the last short film produced that year. The title is a satire on Idiot's Delight, a play by Robert E. Sherwood and later an MGM movie of the same title with Norma Shearer and Clark Gable. Idiots Deluxe marks a change in the title screens, most notably featuring the Greco-Roman comic mask of the Muse Thalia in the upper left-hand corner. This new format would remain in place for the remainder of the Stooges shorts run at Columbia Pictures. The film is a remake of Oh, My Nerves, starring Monte Collins and Tom Kennedy. It would be remade with the Stooges again in 1957 as Guns a Poppin, using minimal stock footage. The initial plotline of a person going on a retreat to heal an illness was originally done by Laurel and Hardy in the 1934 film Them Thar Hills.
One notable gag was the Stooges' unorthodox cuisine. Idiots Deluxe shows Larry and Curly putting almost every known condiment onto slices of bread but, not surprisingly, they are never shown actually eating the whole bread (partly because Moe interrupts them before they can). Moe then pours honey and ketchup on bread, declaring "If there's anything I like better than honey and ketchup, it's bologna and whipped cream—and we haven't got any!" Like Larry and Curly, Moe also does not eat his concoction, though he is seen biting a small piece of the crust off.
Curly's illness
At Moe's insistence, Curly Howard entered a Cottage Hospital at Santa Barbara, California in January 1945 and was found to have serious hypertension, obesity and retinal hemorrhage. The next short film produced, If a Body Meets a Body, was shot five months after Idiots Deluxe in March 1945 shortly after he suffered a minor stroke. His remaining performances with the team were lackluster and displayed the effects of his illness.
References
External links
1945 films
1945 comedy films
American black-and-white films
Films directed by Jules White
The Three Stooges films
Columbia Pictures short films
1940s English-language films
1940s American films
|
```smalltalk
"
DelayWaitTimeout is a special kind of Delay used in waitTimeoutMSecs: to avoid signaling the underlying semaphore when the wait times out.
"
Class {
#name : 'DelayWaitTimeout',
#superclass : 'Delay',
#instVars : [
'process',
'expired'
],
#category : 'Kernel-Delays',
#package : 'Kernel',
#tag : 'Delays'
}
{ #category : 'testing' }
DelayWaitTimeout >> isExpired [
"Did this timeout fire before the associated semaphore was signaled?"
^expired
]
{ #category : 'private' }
DelayWaitTimeout >> setDelay: anInteger forSemaphore: aSemaphore [
super setDelay: anInteger forSemaphore: aSemaphore.
process := Processor activeProcess.
expired := false
]
{ #category : 'private' }
DelayWaitTimeout >> timingPrioritySignalExpired [
"Release the given process from the semaphore it is waiting on.
This method relies on running at highest priority so that it cannot be preempted
by the process being released."
beingWaitedOn := false.
"Release the process but only if it is still waiting on its original list"
process suspendingList == delaySemaphore ifTrue:[
expired := true.
process suspend; resume.
]
]
{ #category : 'waiting' }
DelayWaitTimeout >> wait [
"Wait until either the semaphore is signaled or the delay times out"
[self schedule.
"It is critical that the following has no suspension point so that
the test and the wait primitive are atomic. In addition, if the delay
is no longer being waited on while entering the way we know that it
is expired because the delay has already fired."
beingWaitedOn
ifTrue:[delaySemaphore wait]
ifFalse:[expired := true]] ensure:[self unschedule].
^self isExpired
]
{ #category : 'waiting' }
DelayWaitTimeout >> waitOnCompletion: completionBlock onTimeout: timeoutBlock [
"Wait until either the semaphore is signaled or the delay times out.
If the delay times out execute timeoutBlock, otherwise if the semaphore is signaled execute completionBlock.
Return the value returned by the executed block."
^ self wait
ifTrue: [ timeoutBlock value ]
ifFalse: [ completionBlock value]
]
```
|
```smalltalk
/*
* PROJECT: Atomix Development
* LICENSE: BSD 3-Clause (LICENSE.md)
* PURPOSE: Lding_I4 MSIL
* PROGRAMMERS: Aman Priyadarshi (aman.eureka@gmail.com)
*/
using System.Reflection;
using Atomix.Assembler;
using Atomix.Assembler.x86;
using Atomix.CompilerExt;
using Core = Atomix.Assembler.AssemblyHelper;
namespace Atomix.IL
{
[ILOp(ILCode.Ldind_I4)]
public class Ldind_I4 : MSIL
{
public Ldind_I4(Compiler Cmp)
: base("ldind_i4", Cmp) { }
public override void Execute(ILOpCode instr, MethodBase aMethod)
{
switch (ILCompiler.CPUArchitecture)
{
#region _x86_
case CPUArch.x86:
{
Core.AssemblerCode.Add(new Pop { DestinationReg = Registers.EAX });
Core.AssemblerCode.Add(new Push { DestinationReg = Registers.EAX, DestinationIndirect = true });
}
break;
#endregion
#region _x64_
case CPUArch.x64:
{
}
break;
#endregion
#region _ARM_
case CPUArch.ARM:
{
}
break;
#endregion
}
}
}
}
```
|
```php
<?php
/*
*
*
* path_to_url
*
* Unless required by applicable law or agreed to in writing, software
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
*/
namespace Google\Service\Dialogflow;
class GoogleCloudDialogflowCxV3TrainFlowRequest extends \Google\Model
{
}
// Adding a class alias for backwards compatibility with the previous class name.
class_alias(GoogleCloudDialogflowCxV3TrainFlowRequest::class, your_sha256_hashest');
```
|
```objective-c
//===your_sha256_hash------===//
//
// See path_to_url for license information.
//
//===your_sha256_hash------===//
#ifndef _LIBCPP___ALGORITHM_RANGES_MIN_ELEMENT_H
#define _LIBCPP___ALGORITHM_RANGES_MIN_ELEMENT_H
#include <__config>
#include <__functional/identity.h>
#include <__functional/invoke.h>
#include <__functional/ranges_operations.h>
#include <__iterator/concepts.h>
#include <__iterator/projected.h>
#include <__ranges/access.h>
#include <__ranges/concepts.h>
#include <__ranges/dangling.h>
#include <__utility/forward.h>
#if !defined(_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
# pragma GCC system_header
#endif
#if _LIBCPP_STD_VER > 17
_LIBCPP_BEGIN_NAMESPACE_STD
namespace ranges {
// TODO(ranges): `ranges::min_element` can now simply delegate to `std::__min_element`.
template <class _Ip, class _Sp, class _Proj, class _Comp>
_LIBCPP_HIDE_FROM_ABI static constexpr
_Ip __min_element_impl(_Ip __first, _Sp __last, _Comp& __comp, _Proj& __proj) {
if (__first == __last)
return __first;
_Ip __i = __first;
while (++__i != __last)
if (std::invoke(__comp, std::invoke(__proj, *__i), std::invoke(__proj, *__first)))
__first = __i;
return __first;
}
namespace __min_element {
struct __fn {
template <forward_iterator _Ip, sentinel_for<_Ip> _Sp, class _Proj = identity,
indirect_strict_weak_order<projected<_Ip, _Proj>> _Comp = ranges::less>
_LIBCPP_NODISCARD_EXT _LIBCPP_HIDE_FROM_ABI constexpr
_Ip operator()(_Ip __first, _Sp __last, _Comp __comp = {}, _Proj __proj = {}) const {
return ranges::__min_element_impl(__first, __last, __comp, __proj);
}
template <forward_range _Rp, class _Proj = identity,
indirect_strict_weak_order<projected<iterator_t<_Rp>, _Proj>> _Comp = ranges::less>
_LIBCPP_NODISCARD_EXT _LIBCPP_HIDE_FROM_ABI constexpr
borrowed_iterator_t<_Rp> operator()(_Rp&& __r, _Comp __comp = {}, _Proj __proj = {}) const {
return ranges::__min_element_impl(ranges::begin(__r), ranges::end(__r), __comp, __proj);
}
};
} // namespace __min_element
inline namespace __cpo {
inline constexpr auto min_element = __min_element::__fn{};
} // namespace __cpo
} // namespace ranges
_LIBCPP_END_NAMESPACE_STD
#endif // _LIBCPP_STD_VER > 17
#endif // _LIBCPP___ALGORITHM_RANGES_MIN_ELEMENT_H
```
|
Orthogonius mniszechi is a species of ground beetle in the subfamily Orthogoniinae. It was described by Maximilien Chaudoir in 1871.
References
mniszechi
Beetles described in 1871
|
Neural accommodation or neuronal accommodation occurs when a neuron or muscle cell is depolarised by slowly rising current (ramp depolarisation) in vitro. The Hodgkin–Huxley model also shows accommodation. Sudden depolarisation of a nerve evokes propagated action potential by activating voltage-gated fast sodium channels incorporated in the cell membrane if the depolarisation is strong enough to reach threshold. The open sodium channels allow more sodium ions to flow into the cell and resulting in further depolarisation, which will subsequently open even more sodium channels. At a certain moment this process becomes regenerative (vicious cycle) and results in the rapid ascending phase of action potential. In parallel with the depolarisation and sodium channel activation, the inactivation process of the sodium channels is also driven by depolarisation. Since the inactivation is much slower than the activation process, during the regenerative phase of action potential, inactivation is unable to prevent the "chain reaction"-like rapid increase in the membrane voltage.
During neuronal accommodation, the slowly rising depolarisation drives the activation and inactivation, as well as the potassium gates simultaneously and never evokes action potential. Failure to evoke action potential by ramp depolarisation of any strength had been a great puzzle until Hodgkin and Huxley created their physical model of action potential. Later in their life they received a Nobel Prize for their influential discoveries. Neuronal accommodation can be explained in two ways. "First, during the passage of a constant cathodal current through the membrane, the potassium conductance and the degree of inactivation will rise, both factors raising the threshold. Secondly, the steady state ionic current at all strengths of depolarization is outward, so that an applied cathodal current which rises sufficiently slowly will never evoke a regenerative response from the membrane, and excitation will not occur." (quote from Hodgkin and Huxley)
In vivo physiologic condition accommodation breaks down, that is long-duration slowly rising current excites nerve fibers at a nearly constant intensity no matter how slowly this intensity is approached.
See also
Accommodation index
Action potential
Anode break excitation
Hodgkin–Huxley model
References
External links
Interactive Java applet of the HH model Parameters of the model can be changed as well as excitation parameters and phase space plottings of all the variables is possible.
Direct link to Hodgkin-Huxley model and a Description in BioModels Database
Direct link to Hodgkin-Huxley paper #1 via PubMedCentral
Direct link to Hodgkin-Huxley paper #2 via PubMedCentral
Direct link to Hodgkin-Huxley paper #3 via PubMedCentral
Direct link to Hodgkin-Huxley paper #4 via PubMedCentral
Direct link to Hodgkin-Huxley paper #5 via PubMedCentral
Neural Impulses: The Action Potential In Action by Garrett Neske, The Wolfram Demonstrations Project
Interactive Hodgkin-Huxley model by Shimon Marom, The Wolfram Demonstrations Project
ModelDB A computational neuroscience source code database containing 4 versions (in different simulators) of the original Hodgkin–Huxley model and hundreds of models that apply the Hodgkin–Huxley model to other channels in many electrically excitable cell types.
Nonlinear systems
Electrophysiology
Ion channels
Computational neuroscience
|
```prolog
#!/usr/bin/perl
########################################################################
# #
# tokenization script for tagger preprocessing #
# Author: Helmut Schmid, IMS, University of Stuttgart #
# #
# Description: #
# - splits input text into tokens (one token per line) #
# - cuts off punctuation, parentheses etc. #
# - cuts of clitics like n't in English #
# - disambiguates periods #
# - preserves SGML markup #
# - reads the whole file at once and should therefore not be called #
# with very large files #
# #
########################################################################
use Getopt::Std;
getopts('hfeiza:w');
# Modify the following lines in order to adapt the tokenizer to other
# types of text and/or languages
# characters which have to be cut off at the beginning of a word
my $PChar='[{\'\`\"\202\204\206\207\213\221\222\223\224\225\226\227\233';
# characters which have to be cut off at the end of a word
my $FChar=']}\'\`\\",;:\!\?\%\202\204\205\206\207\211\213\221\222\223\224\225\226\227\233';
# character sequences which have to be cut off at the beginning of a word
my $PClitic;
# character sequences which have to be cut off at the end of a word
my $FClitic;
if (defined($opt_e)) {
# English
$FClitic = "['](s|re|ve|d|m|em|ll)|n[']t";
}
if (defined($opt_i)) {
# Italian
$PClitic = "(?:[dD][ae]ll|[nN]ell|[Aa]ll|[lLDd]|[Ss]ull|[Qq]uest|[Uu]n|[Ss]enz|[Tt]utt|[Cc]|[Ss])[']";
}
if (defined($opt_f)) {
# French
$PClitic = "(?:[dcjlmnstDCJLNMST]|[Qq]u|[Jj]usqu|[Ll]orsqu)[']";
$FClitic = "-t-elles?|-t-ils?|-t-on|-ce|-elles?|-ils?|-je|-la|-les?|-leur|-lui|-mmes?|-m[']|-moi|-nous|-on|-toi|-tu|-t[']|-vous|-en|-y|-ci|-l";
}
if (defined($opt_z)) {
# Galician
$FClitic = '-la|-las|-lo|-los|-nos';
}
### NO MODIFICATIONS REQUIRED BEYOND THIS LINE #########################
if (defined($opt_h)) {
die "
Usage: tokenize.perl [ options ] ...files...
Options:
-e English text
-f French text
-i Italian text
-a <file> <file> contains a list of words which are either abbreviations or
words which should not be further split.
-w replace whitespace by SGML tags
";
}
# Read the list of abbreviations and words
if (defined($opt_a)) {
die "file not found: $opt_a\n" unless (open(FILE, $opt_a));
while (<FILE>) {
s/^[ \t\r\n]+//;
s/[ \t\r\n]+$//;
next if (/^\#/ || /^\s$/); # ignore comments
$Token{$_} = 1;
}
close FILE;
}
###########################################################################
# read the file
###########################################################################
while (<>) {
# delete \r
s/[\r\p{XPosixCntrl}]//g;
# replace blanks within SGML Tags
while (s/(<[^<> ]*)[ \t]([^<>]*>)/$1\377$2/g) {
}
# replace whitespace by SGML-Tags
if (defined $opt_w) {
s/\n/<internal_NL>/g;
s/\t/<internal_TAB>/g;
s/ /<internal_BL>/g;
}
# restore SGML Tags
tr/\377/ /;
# put special characters around SGML Tags for tokenization
s/(<[^<>]*>)/\377$1\377/g;
s/(&[^; \t\n\r]*;)/\377$1\377/g;
s/^\377//;
s/\377$//;
s/\377\377/\377/g;
@S = split("\377");
for ($i=0; $i<=$#S; $i++) {
$_ = $S[$i];
# skip lines with only SGML tags
if (/^<.*>$/) {
print $_,"\n";
}
# normal text
else {
# put spaces at beginning and end
$_ = ' '.$_.' ';
# put spaces around punctuation
s/(\.\.\.)/ ... /g;
s/([;\!\?\/])([^ ])/$1 $2/g;
s/(,)([^ 0-9.])/$1 $2/g;
s/([a-zA-Z-][a-zA-Z-][.:])([A-Z-])/$1 $2/g;
@F = split;
for ($j=0; $j<=$#F; $j++) {
my $suffix="";
$_ = $F[$j];
# cut off punctuation and brackets
my $finished = 0;
while (!$finished && !defined($Token{$_})) {
# preceding parentheses
if (s/^(\()([^\)]*)(.)$/$2$3/) {
print "$1\n";
}
# following preceding parentheses
elsif (s/^([^(]+)(\))$/$1/) {
$suffix = "$2\n$suffix";
}
# other leading punctuation symbols
elsif (s/^([$PChar])(.)/$2/) {
print $1,"\n";
}
# other following punctuation symbols
elsif (s/(.)([$FChar])$/$1/) {
$suffix = "$2\n$suffix";
}
# cut off dot after punctuation etc.
elsif (s/([$FChar])\.$//) {
$suffix = ".\n$suffix";
if ($_ eq "") {
$_ = $1;
} else {
$suffix = "$1\n$suffix";
}
}
else {
$finished = 1;
}
}
# deal with listed tokens
if (defined($Token{$_})) {
print "$_\n$suffix";
next;
}
# deal with abbrevs like U.S.A.
if (/^([A-Za-z-]\.)+$/) {
print "$_\n$suffix";
next;
}
# ordinal numbers
if (/^[0-9]+\.$/ && ! defined($opt_e)) {
print "$_\n$suffix";
next;
}
# deal with differnt types of dots
if (/^(..*)\.$/ && $_ ne "...") {
$_ = $1;
$suffix = ".\n$suffix";
if (defined($Token{$_})) {
print "$_\n$suffix";
next;
}
}
# cut clitics off
while (s/^(--)(.)/$2/) {
print $1,"\n";
}
if (defined $PClitic) {
while (s/^($PClitic)(.)/$2/) {
print $1,"\n";
}
}
while (s/(.)(--)$/$1/) {
$suffix = "$2\n$suffix";
}
if (defined $FClitic) {
while (s/(.)($FClitic)$/$1/) {
$suffix = "$2\n$suffix";
}
}
print "$_\n$suffix";
}
}
}
}
```
|
```freemarker
<#import "narrative_block.ftl" as narrative>
<#import "code_with_reference.ftl" as codes>
<component>
<!--Medical Equipment - Not C32-->
<section>
<templateId root="2.16.840.1.113883.10.20.22.2.23" extension="2014-06-09"/>
<!-- Medical equipment section template -->
<code code="46264-8" codeSystem="2.16.840.1.113883.6.1"/>
<title>Medical Equipment</title>
<@narrative.narrative entries=ehr_medical_equipment section="medical_equipment"/>
<#list ehr_medical_equipment as entry>
<entry typeCode="DRIV">
<supply classCode="SPLY" moodCode="EVN">
<templateId root="2.16.840.1.113883.10.20.22.4.50"/>
<!-- Supply activity template -->
<id root="${entry.uuid}"/>
<statusCode code="completed"/>
<effectiveTime value="${entry.start?number_to_date?string["yyyyMMddHHmmss"]}"/>
<participant typeCode="DEV">
<participantRole classCode="MANU">
<templateId root="2.16.840.1.113883.10.20.22.4.37"/>
<!-- Product instance template -->
<addr nullFlavor="NA" />
<telecom nullFlavor="NA" />
<playingDevice>
<@codes.code_section codes=entry.codes section="medical_equipment" counter=entry?counter />
</playingDevice>
<#if entry.manufacturer??>
<scopingEntity>
<id root="${UUID?api.toString()}"/>
<desc>${entry.manufacturer}</desc>
</scopingEntity>
</#if>
</participantRole>
</participant>
</supply>
</entry>
</#list>
</section>
</component>
```
|
```javascript
/** @jest-environment ./packages/test/harness/src/host/jest/WebDriverEnvironment.js */
describe('originator using ReplyAction', () => {
test('should display', () => runHTML('originator/replyAction.html'));
});
```
|
```objective-c
/***
* ==++==
*
*
* ==--==
* =+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+=+
*
* primitives.h
*
* =-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
****/
#pragma once
#include <crtdefs.h>
#include <Windows.h>
#include <stdlib.h>
#include <awint.h>
#include <new>
#include <exception>
#ifdef _STL_CONCRT_SUPPORT
#include <concrt.h>
#include <concrtinternal.h>
#endif
enum class __stl_sync_api_modes_enum
{
normal,
win7,
vista,
concrt
};
extern __stl_sync_api_modes_enum __stl_sync_api_impl_mode;
namespace Concurrency
{
namespace details
{
class __declspec(novtable) stl_critical_section_interface
{
public:
virtual void lock() = 0;
virtual bool try_lock() = 0;
virtual bool try_lock_for(unsigned int) = 0;
virtual void unlock() = 0;
virtual void destroy() = 0;
};
class __declspec(novtable) stl_condition_variable_interface
{
public:
virtual void wait(stl_critical_section_interface *) = 0;
virtual bool wait_for(stl_critical_section_interface *, unsigned int) = 0;
virtual void notify_one() = 0;
virtual void notify_all() = 0;
virtual void destroy() = 0;
};
#pragma warning(push)
#pragma warning(disable: 4265) // non-virtual destructor in base class
class stl_critical_section_vista final : public stl_critical_section_interface
{
public:
stl_critical_section_vista()
{
__crtInitializeCriticalSectionEx(&_M_critical_section, 4000, 0);
}
stl_critical_section_vista(const stl_critical_section_vista&) = delete;
stl_critical_section_vista& operator=(const stl_critical_section_vista&) = delete;
~stl_critical_section_vista() = delete;
virtual void destroy() override
{
DeleteCriticalSection(&_M_critical_section);
}
virtual void lock() override
{
EnterCriticalSection(&_M_critical_section);
}
virtual bool try_lock() override
{
return TryEnterCriticalSection(&_M_critical_section) != 0;
}
virtual bool try_lock_for(unsigned int) override
{
// STL will call try_lock_for once again if this call will not succeed
return stl_critical_section_vista::try_lock();
}
virtual void unlock() override
{
LeaveCriticalSection(&_M_critical_section);
}
LPCRITICAL_SECTION native_handle()
{
return &_M_critical_section;
}
private:
CRITICAL_SECTION _M_critical_section;
};
class stl_condition_variable_vista final : public stl_condition_variable_interface
{
public:
stl_condition_variable_vista()
{
__crtInitializeConditionVariable(&m_condition_variable);
}
~stl_condition_variable_vista() = delete;
stl_condition_variable_vista(const stl_condition_variable_vista&) = delete;
stl_condition_variable_vista& operator=(const stl_condition_variable_vista&) = delete;
virtual void destroy() override {}
virtual void wait(stl_critical_section_interface *lock) override
{
if (!stl_condition_variable_vista::wait_for(lock, INFINITE))
std::terminate();
}
virtual bool wait_for(stl_critical_section_interface *lock, unsigned int timeout) override
{
return __crtSleepConditionVariableCS(&m_condition_variable, static_cast<stl_critical_section_vista *>(lock)->native_handle(), timeout) != 0;
}
virtual void notify_one() override
{
__crtWakeConditionVariable(&m_condition_variable);
}
virtual void notify_all() override
{
__crtWakeAllConditionVariable(&m_condition_variable);
}
private:
CONDITION_VARIABLE m_condition_variable;
};
class stl_critical_section_win7 final : public stl_critical_section_interface
{
public:
stl_critical_section_win7()
{
__crtInitializeSRWLock(&m_srw_lock);
}
~stl_critical_section_win7() = delete;
stl_critical_section_win7(const stl_critical_section_win7&) = delete;
stl_critical_section_win7& operator=(const stl_critical_section_win7&) = delete;
virtual void destroy() override {}
virtual void lock() override
{
__crtAcquireSRWLockExclusive(&m_srw_lock);
}
virtual bool try_lock() override
{
return __crtTryAcquireSRWLockExclusive(&m_srw_lock) != 0;
}
virtual bool try_lock_for(unsigned int) override
{
// STL will call try_lock_for once again if this call will not succeed
return stl_critical_section_win7::try_lock();
}
virtual void unlock() override
{
__crtReleaseSRWLockExclusive(&m_srw_lock);
}
PSRWLOCK native_handle()
{
return &m_srw_lock;
}
private:
SRWLOCK m_srw_lock;
};
class stl_condition_variable_win7 final : public stl_condition_variable_interface
{
public:
stl_condition_variable_win7()
{
__crtInitializeConditionVariable(&m_condition_variable);
}
~stl_condition_variable_win7() = delete;
stl_condition_variable_win7(const stl_condition_variable_win7&) = delete;
stl_condition_variable_win7& operator=(const stl_condition_variable_win7&) = delete;
virtual void destroy() override {}
virtual void wait(stl_critical_section_interface *lock) override
{
if (!stl_condition_variable_win7::wait_for(lock, INFINITE))
std::terminate();
}
virtual bool wait_for(stl_critical_section_interface *lock, unsigned int timeout) override
{
return __crtSleepConditionVariableSRW(&m_condition_variable, static_cast<stl_critical_section_win7 *>(lock)->native_handle(), timeout, 0) != 0;
}
virtual void notify_one() override
{
__crtWakeConditionVariable(&m_condition_variable);
}
virtual void notify_all() override
{
__crtWakeAllConditionVariable(&m_condition_variable);
}
private:
CONDITION_VARIABLE m_condition_variable;
};
#ifdef _STL_CONCRT_SUPPORT
class stl_critical_section_concrt final : public stl_critical_section_interface
{
public:
stl_critical_section_concrt() = default;
~stl_critical_section_concrt() = delete;
stl_critical_section_concrt(const stl_critical_section_concrt&) = delete;
stl_critical_section_concrt& operator=(const stl_critical_section_concrt&) = delete;
virtual void lock() override
{
m_critical_section.lock();
}
virtual bool try_lock() override
{
return m_critical_section.try_lock();
}
virtual bool try_lock_for(unsigned int duration) override
{
return m_critical_section.try_lock_for(duration);
}
virtual void unlock() override
{
m_critical_section.unlock();
}
virtual void destroy() override
{
// the destructor of stl_critical_section_concrt will never be invoked
m_critical_section.~critical_section();
}
critical_section& native_handle()
{
return m_critical_section;
}
private:
critical_section m_critical_section;
};
class stl_condition_variable_concrt final : public stl_condition_variable_interface
{
public:
stl_condition_variable_concrt() = default;
~stl_condition_variable_concrt() = delete;
stl_condition_variable_concrt(const stl_condition_variable_concrt&) = delete;
stl_condition_variable_concrt& operator=(const stl_condition_variable_concrt&) = delete;
virtual void wait(stl_critical_section_interface *lock) override
{
m_condition_variable.wait(static_cast<stl_critical_section_concrt *>(lock)->native_handle());
}
virtual bool wait_for(stl_critical_section_interface *lock, unsigned int timeout) override
{
return m_condition_variable.wait_for(static_cast<stl_critical_section_concrt *>(lock)->native_handle(), timeout);
}
virtual void notify_one() override
{
m_condition_variable.notify_one();
}
virtual void notify_all() override
{
m_condition_variable.notify_all();
}
virtual void destroy() override
{
// the destructor of stl_condition_variable_concrt will never be invoked
m_condition_variable.~_Condition_variable();
}
private:
_Condition_variable m_condition_variable;
};
#endif // _STL_CONCRT_SUPPORT
#pragma warning(pop)
//inline bool are_win7_sync_apis_available()
//{
// #if _STL_WIN32_WINNT >= _WIN32_WINNT_WIN7
// return true;
// #else
// // TryAcquireSRWLockExclusive ONLY available on Win7+
// DYNAMICGETCACHEDFUNCTION(KERNEL32, PFNTRYACQUIRESRWLOCKEXCLUSIVE, TryAcquireSRWLockExclusive, pfTryAcquireSRWLockExclusive);
// return pfTryAcquireSRWLockExclusive != nullptr;
// #endif
//}
#define are_win7_sync_apis_available __crt_are_win7_sync_apis_available
//inline bool are_vista_sync_apis_available()
//{
// #if _STL_WIN32_WINNT >= _WIN32_WINNT_VISTA
// return true;
// #else
// // InitializeConditionVariable ONLY available on Vista+
// DYNAMICGETCACHEDFUNCTION(KERNEL32, PFNINITIALIZECONDITIONVARIABLE, InitializeConditionVariable, pfInitializeConditionVariable);
// return pfInitializeConditionVariable != nullptr;
// #endif
//}
#define are_vista_sync_apis_available __crt_are_vista_sync_apis_available
inline void create_stl_critical_section(stl_critical_section_interface *p)
{
#ifdef _CRT_WINDOWS
new (p) stl_critical_section_win7;
#else
switch (__stl_sync_api_impl_mode)
{
case __stl_sync_api_modes_enum::normal:
case __stl_sync_api_modes_enum::win7:
if (are_win7_sync_apis_available())
{
new (p) stl_critical_section_win7;
return;
}
// fall through
case __stl_sync_api_modes_enum::vista:
if (are_vista_sync_apis_available())
{
new (p) stl_critical_section_vista;
return;
}
// fall through
case __stl_sync_api_modes_enum::concrt:
default:
#ifdef _STL_CONCRT_SUPPORT
new (p) stl_critical_section_concrt;
return;
#else
std::terminate();
#endif // _STL_CONCRT_SUPPORT
}
#endif // _CRT_WINDOWS
}
inline void create_stl_condition_variable(stl_condition_variable_interface *p)
{
#ifdef _CRT_WINDOWS
new (p) stl_condition_variable_win7;
#else
switch (__stl_sync_api_impl_mode)
{
case __stl_sync_api_modes_enum::normal:
case __stl_sync_api_modes_enum::win7:
if (are_win7_sync_apis_available())
{
new (p) stl_condition_variable_win7;
return;
}
// fall through
case __stl_sync_api_modes_enum::vista:
if (are_vista_sync_apis_available())
{
new (p) stl_condition_variable_vista;
return;
}
// fall through
case __stl_sync_api_modes_enum::concrt:
default:
#ifdef _STL_CONCRT_SUPPORT
new (p) stl_condition_variable_concrt;
return;
#else
std::terminate();
#endif // _STL_CONCRT_SUPPORT
}
#endif // _CRT_WINDOWS
}
#if defined _CRT_WINDOWS
const size_t stl_critical_section_max_size = sizeof(stl_critical_section_win7);
const size_t stl_condition_variable_max_size = sizeof(stl_condition_variable_win7);
const size_t stl_critical_section_max_alignment = __alignof(stl_critical_section_win7);
const size_t stl_condition_variable_max_alignment = __alignof(stl_condition_variable_win7);
#elif defined _STL_CONCRT_SUPPORT
const size_t stl_critical_section_max_size = __max(__max(sizeof(stl_critical_section_concrt), sizeof(stl_critical_section_vista)), sizeof(stl_critical_section_win7));
const size_t stl_condition_variable_max_size = __max(__max(sizeof(stl_condition_variable_concrt), sizeof(stl_condition_variable_vista)), sizeof(stl_condition_variable_win7));
const size_t stl_critical_section_max_alignment = __max(__max(__alignof(stl_critical_section_concrt), __alignof(stl_critical_section_vista)), __alignof(stl_critical_section_win7));
const size_t stl_condition_variable_max_alignment = __max(__max(__alignof(stl_condition_variable_concrt), __alignof(stl_condition_variable_vista)), __alignof(stl_condition_variable_win7));
#else
const size_t stl_critical_section_max_size = __max(sizeof(stl_critical_section_vista), sizeof(stl_critical_section_win7));
const size_t stl_condition_variable_max_size = __max(sizeof(stl_condition_variable_vista), sizeof(stl_condition_variable_win7));
const size_t stl_critical_section_max_alignment = __max(__alignof(stl_critical_section_vista), __alignof(stl_critical_section_win7));
const size_t stl_condition_variable_max_alignment = __max(__alignof(stl_condition_variable_vista), __alignof(stl_condition_variable_win7));
#endif
} // namespace details
} // namespace Concurrency
```
|
```rust
use super::*;
cpp_class!(pub unsafe struct SBSymbol as "SBSymbol");
unsafe impl Send for SBSymbol {}
impl SBSymbol {
pub fn name(&self) -> &str {
let ptr = cpp!(unsafe [self as "SBSymbol*"] -> *const c_char as "const char*" {
return self->GetName();
});
unsafe { get_str(ptr) }
}
pub fn display_name(&self) -> &str {
let ptr = cpp!(unsafe [self as "SBSymbol*"] -> *const c_char as "const char*" {
return self->GetDisplayName();
});
unsafe { get_str(ptr) }
}
pub fn mangled_name(&self) -> &str {
let ptr = cpp!(unsafe [self as "SBSymbol*"] -> *const c_char as "const char*" {
return self->GetMangledName();
});
unsafe { get_str(ptr) }
}
pub fn symbol_type(&self) -> SymbolType {
cpp!(unsafe [self as "SBSymbol*"] -> u32 as "uint32_t" {
return self->GetType();
})
.into()
}
pub fn start_address(&self) -> SBAddress {
cpp!(unsafe [self as "SBSymbol*"] -> SBAddress as "SBAddress" {
return self->GetStartAddress();
})
}
pub fn end_address(&self) -> SBAddress {
cpp!(unsafe [self as "SBSymbol*"] -> SBAddress as "SBAddress" {
return self->GetEndAddress();
})
}
pub fn instructions(&self, target: &SBTarget) -> SBInstructionList {
let target = target.clone();
cpp!(unsafe [self as "SBSymbol*", target as "SBTarget"] -> SBInstructionList as "SBInstructionList" {
return self->GetInstructions(target);
})
}
pub fn get_description(&self, description: &mut SBStream) -> bool {
cpp!(unsafe [self as "SBSymbol*", description as "SBStream*"] -> bool as "bool" {
return self->GetDescription(*description);
})
}
}
impl IsValid for SBSymbol {
fn is_valid(&self) -> bool {
cpp!(unsafe [self as "SBSymbol*"] -> bool as "bool" {
return self->IsValid();
})
}
}
impl fmt::Debug for SBSymbol {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
debug_descr(f, |descr| {
cpp!(unsafe [self as "SBSymbol*", descr as "SBStream*"] -> bool as "bool" {
return self->GetDescription(*descr);
})
})
}
}
#[derive(Clone, Copy, Eq, PartialEq, Debug, FromPrimitive)]
#[repr(u32)]
pub enum SymbolType {
Any = 0,
Absolute,
Code,
Resolver,
Data,
Trampoline,
Runtime,
Exception,
SourceFile,
HeaderFile,
ObjectFile,
CommonBlock,
Block,
Local,
Param,
Variable,
VariableType,
LineEntry,
LineHeader,
ScopeBegin,
ScopeEnd,
// When symbols take more than one entry, the extra entries get this type
Additional,
Compiler,
Instrumentation,
Undefined,
ObjCClass,
ObjCMetaClass,
ObjCIVar,
ReExported,
#[default]
Invalid,
}
```
|
```c
#ifdef __has_include
#if __has_include("lvgl.h")
#ifndef LV_LVGL_H_INCLUDE_SIMPLE
#define LV_LVGL_H_INCLUDE_SIMPLE
#endif
#endif
#endif
#if defined(LV_LVGL_H_INCLUDE_SIMPLE)
#include "lvgl.h"
#else
#include "lvgl/lvgl.h"
#endif
#if LV_USE_DEMO_MULTILANG
#ifndef LV_ATTRIBUTE_MEM_ALIGN
#define LV_ATTRIBUTE_MEM_ALIGN
#endif
#ifndef LV_ATTRIBUTE_IMAGE_IMG_EMOJI_CAMERA_WITH_FLASH
#define LV_ATTRIBUTE_IMAGE_IMG_EMOJI_CAMERA_WITH_FLASH
#endif
const LV_ATTRIBUTE_MEM_ALIGN LV_ATTRIBUTE_LARGE_CONST LV_ATTRIBUTE_IMAGE_IMG_EMOJI_CAMERA_WITH_FLASH uint8_t
img_emoji_camera_with_flash_map[] = {
0xf1, 0xff, 0xf8, 0xff, 0xfe, 0xfa, 0xff, 0xff, 0xff, 0xf9, 0xff, 0xff, 0xff, 0xf8, 0xff, 0xff, 0xf4, 0xff, 0xfc, 0xff, 0xf3, 0xff, 0xf8, 0xff, 0xfc, 0xfd, 0xf4, 0xff, 0xff, 0xf6, 0xf5, 0xff, 0xed, 0xff, 0xff, 0xff, 0xfb, 0xff, 0xff, 0xff, 0xd1, 0xff, 0xf7, 0xff, 0xff, 0xfb, 0xff, 0xff, 0xff, 0xfa, 0xff, 0xff, 0xbe, 0xf3, 0xf6, 0xff, 0xff, 0xff, 0xfe, 0xff, 0xff, 0xff, 0xf4, 0xff, 0xff, 0xff, 0xff, 0xff, 0xf7, 0xf7, 0xf7, 0xff,
0xf8, 0xff, 0xfc, 0xff, 0xfc, 0xfe, 0xff, 0xff, 0xff, 0xfb, 0xff, 0xff, 0xff, 0xf5, 0xfb, 0xff, 0xff, 0xf9, 0xf7, 0xff, 0xff, 0xff, 0xfb, 0xff, 0xff, 0xfc, 0xff, 0xff, 0xff, 0xf7, 0xff, 0xff, 0xd3, 0xf1, 0xff, 0xff, 0xeb, 0xf3, 0xff, 0xff, 0xc5, 0xe1, 0xec, 0xff, 0xff, 0xee, 0xff, 0xff, 0xff, 0xee, 0xff, 0xff, 0xc6, 0xe4, 0xf7, 0xff, 0xfd, 0xf9, 0xff, 0xff, 0xfa, 0xfc, 0xf6, 0xff, 0xff, 0xff, 0xff, 0xff, 0xfb, 0xfb, 0xfb, 0xff,
0xff, 0xfa, 0xfa, 0xff, 0xfa, 0xfc, 0xfd, 0xff, 0xf1, 0xff, 0xff, 0xff, 0xf3, 0xff, 0xfc, 0xff, 0xf4, 0xff, 0xf9, 0xff, 0xdc, 0xfb, 0xf8, 0xff, 0x97, 0xdc, 0xe6, 0xff, 0x6c, 0xcd, 0xe7, 0xff, 0x9a, 0xd7, 0xff, 0xff, 0x8a, 0xda, 0xf9, 0xff, 0x52, 0xd2, 0xe5, 0xff, 0x82, 0xe3, 0xff, 0xff, 0x83, 0xe0, 0xff, 0xff, 0x63, 0xd1, 0xe9, 0xff, 0xc2, 0xea, 0xfd, 0xff, 0xf8, 0xf6, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xfe, 0xff, 0xff, 0xf1, 0xfe, 0xfc, 0xff, 0xee, 0xff, 0xfb, 0xff, 0xfe, 0xfc, 0xf2, 0xff, 0xff, 0xfc, 0xf8, 0xff, 0xff, 0xf7, 0xff, 0xff, 0xe0, 0xec, 0xff, 0xff, 0xad, 0xe6, 0xff, 0xff, 0x40, 0xc5, 0xf7, 0xff, 0x22, 0xdb, 0xfd, 0xff, 0x00, 0xdf, 0xf4, 0xff, 0x00, 0xe5, 0xfd, 0xff, 0x03, 0xd8, 0xf7, 0xff, 0x14, 0xcc, 0xea, 0xff, 0x8e, 0xe7, 0xff, 0xff, 0xee, 0xf5, 0xff, 0xff, 0xf6, 0xf6, 0xf6, 0xff, 0xff, 0xff, 0xff, 0xff,
0xff, 0xf4, 0xf6, 0xff, 0xe2, 0xe8, 0xe7, 0xff, 0xd4, 0xf1, 0xe8, 0xff, 0xda, 0xf3, 0xe5, 0xff, 0xe9, 0xf7, 0xec, 0xff, 0xc8, 0xed, 0xf1, 0xff, 0x63, 0xc7, 0xdf, 0xff, 0x19, 0xb4, 0xdb, 0xff, 0x00, 0xcd, 0xf9, 0xff, 0x00, 0xea, 0xff, 0xff, 0x00, 0xf1, 0xff, 0xff, 0x07, 0xea, 0xff, 0xff, 0x13, 0xdb, 0xff, 0xff, 0x2d, 0xd2, 0xf9, 0xff, 0x65, 0xd3, 0xf1, 0xff, 0xa1, 0xc1, 0xde, 0xff, 0xca, 0xca, 0xca, 0xff, 0xe4, 0xe4, 0xe4, 0xff,
0xcd, 0xd1, 0xcc, 0xff, 0xa8, 0xb0, 0xaf, 0xff, 0x9c, 0xa1, 0xa2, 0xff, 0xa3, 0x99, 0x99, 0xff, 0xc0, 0xa8, 0xa8, 0xff, 0xcc, 0xbc, 0xc7, 0xff, 0xa8, 0xb8, 0xd5, 0xff, 0x8f, 0xbf, 0xe9, 0xff, 0x10, 0xd5, 0xfb, 0xff, 0x00, 0xf0, 0xff, 0xff, 0x01, 0xf6, 0xff, 0xff, 0x00, 0xed, 0xff, 0xff, 0x09, 0xe1, 0xff, 0xff, 0x25, 0xcc, 0xf1, 0xff, 0x1f, 0x9c, 0xb8, 0xff, 0x40, 0x5d, 0x78, 0xff, 0x94, 0x94, 0x94, 0xff, 0xc1, 0xc1, 0xc1, 0xff,
0xd1, 0xd9, 0xcf, 0xff, 0xc0, 0xc0, 0xc0, 0xff, 0xc2, 0xba, 0xc4, 0xff, 0xb9, 0xb6, 0xbf, 0xff, 0xaf, 0xbf, 0xbe, 0xff, 0x9e, 0xc6, 0xc4, 0xff, 0x7e, 0xb9, 0xc2, 0xff, 0x77, 0xbc, 0xcf, 0xff, 0x5d, 0xc8, 0xed, 0xff, 0x1c, 0xda, 0xed, 0xff, 0x24, 0xdc, 0xee, 0xff, 0x04, 0xd8, 0xe9, 0xff, 0x0a, 0xd3, 0xee, 0xff, 0x2b, 0xbe, 0xde, 0xff, 0x17, 0x8c, 0xa1, 0xff, 0x48, 0x52, 0x6a, 0xff, 0x8b, 0x8b, 0x8b, 0xff, 0xbd, 0xbd, 0xbd, 0xff,
0xb9, 0xd0, 0xc2, 0xff, 0xbc, 0xb9, 0xbb, 0xff, 0xd0, 0xb6, 0xc8, 0xff, 0xc5, 0xaf, 0xc1, 0xff, 0xb1, 0xb4, 0xb9, 0xff, 0xa6, 0xbb, 0xb9, 0xff, 0xa3, 0xb4, 0xb7, 0xff, 0xb8, 0xbe, 0xcb, 0xff, 0x91, 0xb3, 0xd7, 0xff, 0x59, 0xb9, 0xd0, 0xff, 0x83, 0xb8, 0xd3, 0xff, 0x72, 0xb5, 0xd6, 0xff, 0x70, 0xb6, 0xde, 0xff, 0x83, 0xb7, 0xe0, 0xff, 0x5f, 0xb2, 0xc8, 0xff, 0x9d, 0xa2, 0xb7, 0xff, 0xa8, 0xa8, 0xa8, 0xff, 0xd4, 0xd4, 0xd4, 0xff,
0x83, 0x83, 0x83, 0xff, 0x82, 0x82, 0x82, 0xff, 0x68, 0x68, 0x68, 0xff, 0x84, 0x84, 0x84, 0xff, 0x97, 0x97, 0x97, 0xff, 0x6e, 0x6e, 0x6e, 0xff, 0x8b, 0x8b, 0x8b, 0xff, 0x71, 0x71, 0x71, 0xff, 0x7d, 0x8f, 0x90, 0xff, 0x87, 0x96, 0x98, 0xff, 0x73, 0x80, 0x82, 0xff, 0x7a, 0x83, 0x86, 0xff, 0x8a, 0x91, 0x94, 0xff, 0x7e, 0x81, 0x85, 0xff, 0x74, 0x75, 0x79, 0xff, 0x6e, 0x6d, 0x71, 0xff, 0x6e, 0x6e, 0x6e, 0xff, 0x91, 0x91, 0x91, 0xff,
0x70, 0x70, 0x70, 0xff, 0x59, 0x59, 0x59, 0xff, 0x60, 0x60, 0x60, 0xff, 0x78, 0x78, 0x78, 0xff, 0x85, 0x85, 0x85, 0xff, 0x6a, 0x6a, 0x6a, 0xff, 0x7a, 0x7a, 0x7a, 0xff, 0x73, 0x73, 0x73, 0xff, 0x67, 0x75, 0x74, 0xff, 0x56, 0x62, 0x62, 0xff, 0x3c, 0x46, 0x46, 0xff, 0x46, 0x4e, 0x4e, 0xff, 0x5e, 0x62, 0x63, 0xff, 0x70, 0x72, 0x73, 0xff, 0x79, 0x78, 0x7a, 0xff, 0x5f, 0x5c, 0x5e, 0xff, 0x5a, 0x5a, 0x5a, 0xff, 0x7c, 0x7c, 0x7c, 0xff,
0x73, 0x73, 0x73, 0xff, 0x3c, 0x3c, 0x3c, 0xff, 0x51, 0x51, 0x51, 0xff, 0x56, 0x56, 0x56, 0xff, 0x58, 0x58, 0x58, 0xff, 0x57, 0x57, 0x57, 0xff, 0x6b, 0x6b, 0x6b, 0xff, 0x77, 0x77, 0x77, 0xff, 0x3f, 0x47, 0x47, 0xff, 0x38, 0x40, 0x40, 0xff, 0x30, 0x35, 0x36, 0xff, 0x34, 0x38, 0x39, 0xff, 0x32, 0x34, 0x35, 0xff, 0x4d, 0x4a, 0x4c, 0xff, 0x71, 0x6e, 0x70, 0xff, 0x66, 0x61, 0x63, 0xff, 0x4d, 0x4d, 0x4d, 0xff, 0x70, 0x70, 0x70, 0xff,
0x77, 0x77, 0x77, 0xff, 0x3c, 0x3c, 0x3c, 0xff, 0x49, 0x49, 0x49, 0xff, 0x43, 0x43, 0x43, 0xff, 0x3d, 0x3d, 0x3d, 0xff, 0x46, 0x46, 0x46, 0xff, 0x66, 0x66, 0x66, 0xff, 0x64, 0x64, 0x64, 0xff, 0x2b, 0x30, 0x2f, 0xff, 0x43, 0x45, 0x45, 0xff, 0x4a, 0x4c, 0x4c, 0xff, 0x4c, 0x4c, 0x4c, 0xff, 0x3a, 0x38, 0x38, 0xff, 0x37, 0x32, 0x33, 0xff, 0x5e, 0x59, 0x5a, 0xff, 0x76, 0x70, 0x71, 0xff, 0x4a, 0x4a, 0x4a, 0xff, 0x6d, 0x6d, 0x6d, 0xff,
0x61, 0x61, 0x61, 0xff, 0x41, 0x41, 0x41, 0xff, 0x46, 0x46, 0x46, 0xff, 0x48, 0x48, 0x48, 0xff, 0x44, 0x44, 0x44, 0xff, 0x45, 0x45, 0x45, 0xff, 0x68, 0x68, 0x68, 0xff, 0x47, 0x47, 0x47, 0xff, 0x2d, 0x2d, 0x2d, 0xff, 0x4b, 0x4b, 0x4b, 0xff, 0x4f, 0x4d, 0x4d, 0xff, 0x56, 0x54, 0x54, 0xff, 0x4f, 0x4d, 0x4d, 0xff, 0x35, 0x30, 0x31, 0xff, 0x4b, 0x46, 0x47, 0xff, 0x77, 0x72, 0x73, 0xff, 0x44, 0x44, 0x44, 0xff, 0x68, 0x68, 0x68, 0xff,
0x56, 0x56, 0x56, 0xff, 0x3f, 0x3f, 0x3f, 0xff, 0x3c, 0x3c, 0x3c, 0xff, 0x3d, 0x3d, 0x3d, 0xff, 0x40, 0x40, 0x40, 0xff, 0x42, 0x42, 0x42, 0xff, 0x6a, 0x6a, 0x6a, 0xff, 0x52, 0x52, 0x52, 0xff, 0x26, 0x24, 0x23, 0xff, 0x40, 0x3e, 0x3d, 0xff, 0x42, 0x40, 0x3f, 0xff, 0x4a, 0x48, 0x47, 0xff, 0x41, 0x3f, 0x3e, 0xff, 0x2a, 0x28, 0x27, 0xff, 0x47, 0x45, 0x44, 0xff, 0x74, 0x72, 0x71, 0xff, 0x3d, 0x3d, 0x3d, 0xff, 0x62, 0x62, 0x62, 0xff,
0x5b, 0x5b, 0x5b, 0xff, 0x32, 0x32, 0x32, 0xff, 0x37, 0x37, 0x37, 0xff, 0x2b, 0x2b, 0x2b, 0xff, 0x31, 0x31, 0x31, 0xff, 0x34, 0x34, 0x34, 0xff, 0x53, 0x53, 0x53, 0xff, 0x6c, 0x6c, 0x6c, 0xff, 0x30, 0x31, 0x2f, 0xff, 0x2c, 0x2d, 0x2b, 0xff, 0x32, 0x33, 0x31, 0xff, 0x39, 0x3a, 0x38, 0xff, 0x23, 0x26, 0x24, 0xff, 0x2f, 0x32, 0x30, 0xff, 0x5b, 0x5e, 0x5c, 0xff, 0x57, 0x5a, 0x58, 0xff, 0x38, 0x38, 0x38, 0xff, 0x5d, 0x5d, 0x5d, 0xff,
0x58, 0x58, 0x58, 0xff, 0x20, 0x20, 0x20, 0xff, 0x3f, 0x3f, 0x3f, 0xff, 0x2d, 0x2d, 0x2d, 0xff, 0x31, 0x31, 0x31, 0xff, 0x2c, 0x2c, 0x2c, 0xff, 0x2e, 0x2e, 0x2e, 0xff, 0x6e, 0x6e, 0x6e, 0xff, 0x57, 0x58, 0x54, 0xff, 0x20, 0x24, 0x1f, 0xff, 0x1b, 0x1f, 0x1a, 0xff, 0x2c, 0x30, 0x2b, 0xff, 0x1f, 0x25, 0x20, 0xff, 0x52, 0x58, 0x53, 0xff, 0x78, 0x7e, 0x79, 0xff, 0x28, 0x2f, 0x2a, 0xff, 0x32, 0x32, 0x32, 0xff, 0x57, 0x57, 0x57, 0xff,
0x42, 0x42, 0x42, 0xff, 0x33, 0x33, 0x33, 0xff, 0x27, 0x27, 0x27, 0xff, 0x24, 0x24, 0x24, 0xff, 0x27, 0x27, 0x27, 0xff, 0x28, 0x28, 0x28, 0xff, 0x28, 0x28, 0x28, 0xff, 0x29, 0x29, 0x29, 0xff, 0x64, 0x64, 0x64, 0xff, 0x7b, 0x7b, 0x7b, 0xff, 0x65, 0x65, 0x65, 0xff, 0x5d, 0x5d, 0x5d, 0xff, 0x7a, 0x7a, 0x7a, 0xff, 0x5d, 0x5d, 0x5d, 0xff, 0x2a, 0x2a, 0x2a, 0xff, 0x2c, 0x2c, 0x2c, 0xff, 0x30, 0x30, 0x30, 0xff, 0x4d, 0x4d, 0x4d, 0xff,
0xb6, 0xb6, 0xb6, 0xff, 0xab, 0xab, 0xab, 0xff, 0xa2, 0xa2, 0xa2, 0xff, 0xa3, 0xa3, 0xa3, 0xff, 0xa7, 0xa7, 0xa7, 0xff, 0xa7, 0xa7, 0xa7, 0xff, 0xa5, 0xa5, 0xa5, 0xff, 0xa5, 0xa5, 0xa5, 0xff, 0xa6, 0xa6, 0xa6, 0xff, 0xb8, 0xb8, 0xb8, 0xff, 0xa9, 0xa9, 0xa9, 0xff, 0xa4, 0xa4, 0xa4, 0xff, 0xbc, 0xbc, 0xbc, 0xff, 0xb1, 0xb1, 0xb1, 0xff, 0x9a, 0x9a, 0x9a, 0xff, 0xa6, 0xa6, 0xa6, 0xff, 0x9c, 0x9c, 0x9c, 0xff, 0xb4, 0xb4, 0xb4, 0xff,
0xec, 0xec, 0xec, 0xff, 0xe4, 0xe4, 0xe4, 0xff, 0xe1, 0xe1, 0xe1, 0xff, 0xe5, 0xe5, 0xe5, 0xff, 0xe9, 0xe9, 0xe9, 0xff, 0xe8, 0xe8, 0xe8, 0xff, 0xe4, 0xe4, 0xe4, 0xff, 0xe3, 0xe3, 0xe3, 0xff, 0xdf, 0xdf, 0xdf, 0xff, 0xe8, 0xe8, 0xe8, 0xff, 0xe3, 0xe3, 0xe3, 0xff, 0xdf, 0xdf, 0xdf, 0xff, 0xe6, 0xe6, 0xe6, 0xff, 0xe5, 0xe5, 0xe5, 0xff, 0xe4, 0xe4, 0xe4, 0xff, 0xf0, 0xf0, 0xf0, 0xff, 0xe3, 0xe3, 0xe3, 0xff, 0xf3, 0xf3, 0xf3, 0xff,
};
const lv_image_dsc_t img_emoji_camera_with_flash = {
.header.cf = LV_COLOR_FORMAT_ARGB8888,
.header.w = 18,
.header.h = 19,
.header.stride = 72,
.data = img_emoji_camera_with_flash_map,
.data_size = sizeof(img_emoji_camera_with_flash_map),
};
#endif
```
|
```php
<?php
declare(strict_types = 1);
namespace LanguageServer\Tests\Server\TextDocument\References;
use LanguageServer\{
LanguageClient, PhpDocumentLoader, Server, DefinitionResolver
};
use LanguageServer\ContentRetriever\FileSystemContentRetriever;
use LanguageServer\Index\{
DependenciesIndex, Index, ProjectIndex
};
use LanguageServerProtocol\{
Location, Position, Range, ReferenceContext, TextDocumentIdentifier
};
use LanguageServer\Tests\MockProtocolStream;
use LanguageServer\Tests\Server\ServerTestCase;
class GlobalFallbackTest extends ServerTestCase
{
public function setUp()
{
$projectIndex = new ProjectIndex(new Index, new DependenciesIndex);
$projectIndex->setComplete();
$definitionResolver = new DefinitionResolver($projectIndex);
$client = new LanguageClient(new MockProtocolStream, new MockProtocolStream);
$this->documentLoader = new PhpDocumentLoader(new FileSystemContentRetriever, $projectIndex, $definitionResolver);
$this->textDocument = new Server\TextDocument($this->documentLoader, $definitionResolver, $client, $projectIndex);
$this->documentLoader->open('global_fallback', file_get_contents(__DIR__ . '/../../../../fixtures/global_fallback.php'));
$this->documentLoader->open('global_symbols', file_get_contents(__DIR__ . '/../../../../fixtures/global_symbols.php'));
}
public function testClassDoesNotFallback()
{
// class TestClass implements TestInterface
// Get references for TestClass
$result = $this->textDocument->references(
new ReferenceContext,
new TextDocumentIdentifier('global_symbols'),
new Position(6, 9)
)->wait();
$this->assertEquals([], $result);
}
public function testFallsBackForConstants()
{
// const TEST_CONST = 123;
// Get references for TEST_CONST
$result = $this->textDocument->references(
new ReferenceContext,
new TextDocumentIdentifier('global_symbols'),
new Position(9, 13)
)->wait();
$this->assertEquals([new Location('global_fallback', new Range(new Position(6, 5), new Position(6, 15)))], $result);
}
public function testFallsBackForFunctions()
{
// function test_function()
// Get references for test_function
$result = $this->textDocument->references(
new ReferenceContext,
new TextDocumentIdentifier('global_symbols'),
new Position(78, 16)
)->wait();
$this->assertEquals([new Location('global_fallback', new Range(new Position(5, 0), new Position(5, 13)))], $result);
}
}
```
|
```javascript
import coerceToString from 'helper/string/coerce_to_string';
/**
* Extracts from `subject` a string from `start` position up to `end` position. The character at `end` position is not
* included.
*
* @function substring
* @static
* @since 1.0.0
* @memberOf Chop
* @param {string} [subject=''] The string to extract from.
* @param {number} start The position to start extraction.
* @param {number} [end=subject.length] The position to end extraction.
* @return {string} Returns the extracted string.
* @note Uses native `String.prototype.substring()`
* @example
* v.substring('beach', 1);
* // => 'each'
*
* v.substring('ocean', 1, 3);
* // => 'ea'
*/
export default function substring(subject, start, end) {
return coerceToString(subject).substring(start, end);
}
```
|
```xml
import { IWeatherService } from './IWeatherService';
import { IWeatherConditions } from '../../model/IWeatherConditions';
import { IWebPartContext } from '@microsoft/sp-webpart-base';
import { ServiceScope } from '@microsoft/sp-core-library';
import { HttpClient } from '@microsoft/sp-http';
import * as constants from '../../constants';
export default class WeatherService implements IWeatherService {
private context: IWebPartContext;
constructor(context: IWebPartContext, serviceScope: ServiceScope) {
this.context = context;
}
public getConditions (zip: string) : Promise<IWeatherConditions> {
var result: Promise<IWeatherConditions> = new Promise<IWeatherConditions>
((resolve, reject) => {
this.context.httpClient
.fetch(`path_to_url{zip},us&appid=${constants.owmApiKey}`,
HttpClient.configurations.v1,
{
method: 'GET',
headers: {"accept": "application/json"},
mode: 'cors',
cache: 'default'
})
.then ((response) => {
if (response.ok) {
return response.json();
} else {
throw (`Error ${response.status}: ${response.statusText}`);
}
})
.then ((o: IWeatherConditions) => {
resolve(o);
});
// TODO: Handle exception
});
return result;
}
}
```
|
The 2021 LEN Men's European Junior Water Polo Championships, took place between 12 and 19 September 2021, in Malta. It was the third time that Malta had hosted the event, after previously hosting it in 2007 and 2017.
Qualification
The top 2 teams out of each group qualified for the tournament, along with the top 8 teams from the 2019 championships, leading to 16 qualified teams overall.
Group A
Group A of the qualifying round took place in Korčula, Croatia, between 25 and 27 June 2021.
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:20%; vertical-align:top;"|
Group B
Group B of the qualifying round took place in Tbilisi, Georgia, between 17 and 20 June 2021.
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:20%; vertical-align:top;"|
Group C
Group C of the qualifying round took place in Maribor, Slovenia, between 24 and 27 June 2021.
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:20%; vertical-align:top;"|
Group D
Group D of the qualifying round took place in Prague, Czech Republic, between 24 and 27 June 2021.
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:40%; vertical-align:top;"|
| style="text-align:left; width:20%; vertical-align:top;"|
Preliminary round
All times are local (UTC+2).
Group A
Group B
Group C
Group D
Knockout stage
Bracket
5th place bracket
9th place bracket
13th place bracket
Play-offs
Quarterfinals
13–16th place semifinals
9–12th place semifinals
5–8th place semifinals
Semifinals
15th place game
13th place game
Eleventh place game
Ninth place game
Seventh place game
Fifth place game
Third place game
Final
Final rankings
Medalists
References
International water polo competitions hosted by Malta
Men's European Junior Water Polo Championship
European Junior Water Polo Championship
LEN
|
Top Gear Live (previously known as the MPH Show) was a supercar motor show. It was held annually at Earls Court beginning in 2003, later expanding to be also held at the Birmingham NEC from 2005 with the two shows being around one week apart. The show took up either one or two halls at both venues, and there were usually two parts to it: the Exhibition and the Main Show. From 2011 the show was rebranded and relaunched as "Top Gear Live", tying together its close links to the Top Gear television series and with a venue change to ExCeL London. Top Gear Live was later expanded, being used by BBC Worldwide as a brand of touring stadium show.
Exhibition Section
Visitors arrive and have the opportunity to take a look at exhibitors' stands. Many are there to advertise a product that they sell (for example there was a 'Shell' stand at MPH '06 advertising Shell V Power) There are also exhibition stands advertising car lease, whilst showing actual cars that can be leased at the stand. These are the likes of the Ferrari Enzo, Lamborghini Murcielago LP640, Ferrari F430 or the Aston Martin DBS V12.
There are also a few car manufacturers exhibiting, although not to the scale of the 'Sunday Times Motor Show'. At MPH 2006, Land Rover turned half of the hall into a simulated off-road environment with ramps and severe slopes, on which people could drive the new Land Rover Discovery 3.
There are also VIP enclosures such as 'The Sunday Times' enclosure, or the 'Auto Express' enclosure in which people with VIP tickets can go and enjoy a glass of wine for example. Overall, the exhibition side of the show is very and does not include many car manufacturers.
Main show
The main event is a 90-minute show, which takes up an entire hall and has the audience sitting in stadium-like seating. The show features stunt driving and a catwalk-style presentation of new cars. Also included in the show are the usual team antics, well known from Top Gear and TGT; at MPH 2006 they placed James May in a shopping trolley and pushed him across the hall with a Ford Mustang at 40 mph into huge ten-pin bowling skittles.
There were also 3D presentations during the show; for example MPH 2005, included a virtual and life-size 3D Apache helicopter shooting at a real Lotus Elise as it raced around the arena. Pyrotechnics added live explosions to the display, simulating missile hits and ricochets from gunfire; due to its success, it made a return appearance in 2006. MPH 2006 also included a virtual 3D Hummer being dropped out of an aircraft, shot down by a Tornado jet, and landing in pieces in the ocean. A 3D Gatso Camera/Dragon of the future battled it out with the Stig at MPH 2007.
In 2006, the MPH show was presented by Jeremy Clarkson and James May (Top Gear presenters), and Tiff Needell (Fifth Gear presenter) who was drafted in to cover for Richard Hammond who could not make the show due to a crash. At MPH 2007 the presenters were Jeremy Clarkson, James May and Richard Hammond (then the Top Gear presenters).
Exhibited cars in the MPH 2006 show included the Caparo T1, Pagani Zonda F, Jaguar XKR, Lamborghini LP640, Bentley GTC, Koenigsegg CCX, Spyker C8, Spyker D8, Lamborghini Gallardo Spyder, Invicta, and the Porsche Cayenne Magnum black gunsmoke.
Tour dates
External links
Official MPH 07 Site
MPH 07 Exhibitor List
MPH Theatrical Show
MPH 06 Shopping Trolley Bowling
MPH 06 Car Football
Auto shows
Top Gear
|
Reuel Washburn (May 21, 1793 – March 4, 1878) was an American judge and politician.
Education and early career
Reuel Washburn was born in Raynham, Massachusetts, on May 21, 1793. His father was Attorney Israel Washburn II, LLD (1755-1851) and his mother was Abiah King (1762-1842).
He graduated from Brown University in 1815, then studied law in Paris, Maine, under Albion Parris.
He was admitted to the Maine bar and moved to Livermore, Maine, to practice law.
Political career
In 1827 and 1828, Reuel Washburn served in the Maine State Senate.
In 1829, Washburn served on the Maine Governor's Council.
From 1832 to 1835 and 1841, Reuel Washburn served in the Maine House of Representatives.
He also served as probate court judge.
Reuel Washburn unsuccessfully ran thrice for election to the United States House of Representatives.
Family background
His father, Israel Washburn II, also served in the Maine Legislature.
His brother, Israel Washburn III, was a Massachusetts politician who served twice in the Massachusetts House of Representatives (Terms of Office - 1815–1816 & 1818–1819).
He married Delia King in Raynham, Massachusetts, in 1820
His son was Ganem W. Washburn, Wisconsin State Senator and circuit court judge.
He died suddenly in Livermore, Maine March 4th, 1878.
His son was Ganem W. Washburn, Wisconsin State Senator and circuit court judge.
Notes
1793 births
1878 deaths
People from Raynham, Massachusetts
People from Livermore, Maine
Brown University alumni
Maine lawyers
Maine state court judges
Maine state senators
Members of the Maine House of Representatives
Members of the Executive Council of Maine
Washburn family
19th-century American politicians
19th-century American judges
19th-century American lawyers
|
End of preview. Expand
in Data Studio
README.md exists but content is empty.
- Downloads last month
- 2