sdk/common/NvBlastPxSharedHelpers.h File Reference

#include "NvCTypes.h"
#include <PxVec2.h>
#include <PxVec3.h>
#include <PxVec4.h>
#include <PxTransform.h>
#include <PxPlane.h>
#include <PxMat33.h>
#include <PxMat44.h>
#include <PxBounds3.h>

Go to the source code of this file.

Defines

#define CONVERT(BlastType, PxSharedType)
#define RCast(type, name)   reinterpret_cast<const type>(name)
#define WCast(type, name)   reinterpret_cast<type>(name)

Functions

float dot (const NvcVec3 &v1, const NvcVec3 &v2)
float dot (const NvcVec2 &v1, const NvcVec2 &v2)
NvcVec3 neg (const NvcVec3 &v)
NvcVec2 neg (const NvcVec2 &v)
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcBounds3, maximum)==NV_OFFSET_OF(physx::PxBounds3, maximum))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcBounds3, minimum)==NV_OFFSET_OF(physx::PxBounds3, minimum))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcBounds3)==sizeof(physx::PxBounds3))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcMat33, column2)==NV_OFFSET_OF(physx::PxMat33, column2))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcMat33, column1)==NV_OFFSET_OF(physx::PxMat33, column1))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcMat33, column0)==NV_OFFSET_OF(physx::PxMat33, column0))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcMat33)==sizeof(physx::PxMat33))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcPlane, d)==NV_OFFSET_OF(physx::PxPlane, d))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcPlane, n)==NV_OFFSET_OF(physx::PxPlane, n))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcPlane)==sizeof(physx::PxPlane))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcTransform, q)==NV_OFFSET_OF(physx::PxTransform, q))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcTransform, p)==NV_OFFSET_OF(physx::PxTransform, p))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcTransform)==sizeof(physx::PxTransform))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcQuat, w)==NV_OFFSET_OF(physx::PxQuat, w))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcQuat, z)==NV_OFFSET_OF(physx::PxQuat, z))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcQuat, y)==NV_OFFSET_OF(physx::PxQuat, y))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcQuat, x)==NV_OFFSET_OF(physx::PxQuat, x))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcQuat)==sizeof(physx::PxQuat))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec4, w)==NV_OFFSET_OF(physx::PxVec4, w))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec4, z)==NV_OFFSET_OF(physx::PxVec4, z))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec4, y)==NV_OFFSET_OF(physx::PxVec4, y))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec4, x)==NV_OFFSET_OF(physx::PxVec4, x))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcVec4)==sizeof(physx::PxVec4))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec3, z)==NV_OFFSET_OF(physx::PxVec3, z))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec3, y)==NV_OFFSET_OF(physx::PxVec3, y))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec3, x)==NV_OFFSET_OF(physx::PxVec3, x))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcVec3)==sizeof(physx::PxVec3))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec2, y)==NV_OFFSET_OF(physx::PxVec2, y))
 NV_COMPILE_TIME_ASSERT (NV_OFFSET_OF(NvcVec2, x)==NV_OFFSET_OF(physx::PxVec2, x))
 NV_COMPILE_TIME_ASSERT (sizeof(NvcVec2)==sizeof(physx::PxVec2))
NvcVec3 operator* (float f, const NvcVec3 &v)
NvcVec3 operator* (const NvcVec3 &v, float f)
NvcVec3 operator* (const NvcVec3 &v1, const NvcVec3 &v2)
NvcVec2 operator* (float f, const NvcVec2 &v)
NvcVec2 operator* (const NvcVec2 &v, float f)
NvcVec3 operator+ (float f, const NvcVec3 &v)
NvcVec3 operator+ (const NvcVec3 &v, float f)
NvcVec3 operator+ (const NvcVec3 &v1, const NvcVec3 &v2)
NvcVec2 operator+ (float f, const NvcVec2 &v)
NvcVec2 operator+ (const NvcVec2 &v, float f)
NvcVec2 operator+ (const NvcVec2 &v1, const NvcVec2 &v2)
NvcVec3 operator- (const NvcVec3 &v1, const NvcVec3 &v2)
NvcVec2 operator- (const NvcVec2 &v1, const NvcVec2 &v2)
NvcVec3 operator/ (const NvcVec3 &v, float f)
NvcVec3 operator/ (const NvcVec3 &v1, const NvcVec3 &v2)
NvcVec2 operator/ (const NvcVec2 &v, float f)

Define Documentation

#define CONVERT ( BlastType,
PxSharedType   ) 

#define RCast ( type,
name   )     reinterpret_cast<const type>(name)

#define WCast ( type,
name   )     reinterpret_cast<type>(name)

Function Documentation

float dot ( const NvcVec3 v1,
const NvcVec3 v2 
) [inline]

float dot ( const NvcVec2 v1,
const NvcVec2 v2 
) [inline]

NvcVec3 neg ( const NvcVec3 v  )  [inline]

NvcVec2 neg ( const NvcVec2 v  )  [inline]

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcBounds3, maximum)  = =NV_OFFSET_OF(physx::PxBounds3, maximum)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcBounds3, minimum)  = =NV_OFFSET_OF(physx::PxBounds3, minimum)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcBounds3 = =sizeof(physx::PxBounds3)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcMat33, column2)  = =NV_OFFSET_OF(physx::PxMat33, column2)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcMat33, column1)  = =NV_OFFSET_OF(physx::PxMat33, column1)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcMat33, column0)  = =NV_OFFSET_OF(physx::PxMat33, column0)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcMat33 = =sizeof(physx::PxMat33)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcPlane, d)  = =NV_OFFSET_OF(physx::PxPlane, d)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcPlane, n)  = =NV_OFFSET_OF(physx::PxPlane, n)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcPlane = =sizeof(physx::PxPlane)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcTransform, q)  = =NV_OFFSET_OF(physx::PxTransform, q)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcTransform, p)  = =NV_OFFSET_OF(physx::PxTransform, p)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcTransform = =sizeof(physx::PxTransform)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcQuat, w)  = =NV_OFFSET_OF(physx::PxQuat, w)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcQuat, z)  = =NV_OFFSET_OF(physx::PxQuat, z)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcQuat, y)  = =NV_OFFSET_OF(physx::PxQuat, y)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcQuat, x)  = =NV_OFFSET_OF(physx::PxQuat, x)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcQuat = =sizeof(physx::PxQuat)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec4, w)  = =NV_OFFSET_OF(physx::PxVec4, w)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec4, z)  = =NV_OFFSET_OF(physx::PxVec4, z)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec4, y)  = =NV_OFFSET_OF(physx::PxVec4, y)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec4, x)  = =NV_OFFSET_OF(physx::PxVec4, x)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcVec4 = =sizeof(physx::PxVec4)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec3, z)  = =NV_OFFSET_OF(physx::PxVec3, z)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec3, y)  = =NV_OFFSET_OF(physx::PxVec3, y)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec3, x)  = =NV_OFFSET_OF(physx::PxVec3, x)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcVec3 = =sizeof(physx::PxVec3)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec2, y)  = =NV_OFFSET_OF(physx::PxVec2, y)  ) 

NV_COMPILE_TIME_ASSERT ( NV_OFFSET_OF(NvcVec2, x)  = =NV_OFFSET_OF(physx::PxVec2, x)  ) 

NV_COMPILE_TIME_ASSERT ( sizeof(NvcVec2 = =sizeof(physx::PxVec2)  ) 

NvcVec3 operator* ( float  f,
const NvcVec3 v 
) [inline]

NvcVec3 operator* ( const NvcVec3 v,
float  f 
) [inline]

NvcVec3 operator* ( const NvcVec3 v1,
const NvcVec3 v2 
) [inline]

NvcVec2 operator* ( float  f,
const NvcVec2 v 
) [inline]

NvcVec2 operator* ( const NvcVec2 v,
float  f 
) [inline]

NvcVec3 operator+ ( float  f,
const NvcVec3 v 
) [inline]

NvcVec3 operator+ ( const NvcVec3 v,
float  f 
) [inline]

NvcVec3 operator+ ( const NvcVec3 v1,
const NvcVec3 v2 
) [inline]

NvcVec2 operator+ ( float  f,
const NvcVec2 v 
) [inline]

NvcVec2 operator+ ( const NvcVec2 v,
float  f 
) [inline]

NvcVec2 operator+ ( const NvcVec2 v1,
const NvcVec2 v2 
) [inline]

NvcVec3 operator- ( const NvcVec3 v1,
const NvcVec3 v2 
) [inline]

NvcVec2 operator- ( const NvcVec2 v1,
const NvcVec2 v2 
) [inline]

NvcVec3 operator/ ( const NvcVec3 v,
float  f 
) [inline]

NvcVec3 operator/ ( const NvcVec3 v1,
const NvcVec3 v2 
) [inline]

NvcVec2 operator/ ( const NvcVec2 v,
float  f 
) [inline]

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