Field3D
CubicGenericFieldInterp< Field_T > Class Template Reference

#include <FieldInterp.h>

Inheritance diagram for CubicGenericFieldInterp< Field_T >:
RefBase

List of all members.

Public Types

typedef CubicGenericFieldInterp class_type
typedef boost::intrusive_ptr
< CubicGenericFieldInterp
Ptr
typedef Field_T::value_type value_type

Public Member Functions

value_type sample (const Field_T &data, const V3d &vsP) const

Static Public Member Functions

static const char * classType ()
static const char * staticClassName ()

Public Attributes

 DEFINE_FIELD_RTTI_CONCRETE_CLASS

Private Types

typedef RefBase base
 Convenience typedef for referring to base class.

Static Private Attributes

static TemplatedFieldType
< CubicGenericFieldInterp
< Field_T > > 
ms_classType

Detailed Description

template<class Field_T>
class CubicGenericFieldInterp< Field_T >

Definition at line 375 of file FieldInterp.h.


Member Typedef Documentation

template<class Field_T >
typedef Field_T::value_type CubicGenericFieldInterp< Field_T >::value_type

Definition at line 381 of file FieldInterp.h.

template<class Field_T >
typedef boost::intrusive_ptr<CubicGenericFieldInterp> CubicGenericFieldInterp< Field_T >::Ptr

Reimplemented from RefBase.

Definition at line 382 of file FieldInterp.h.

template<class Field_T >
typedef CubicGenericFieldInterp CubicGenericFieldInterp< Field_T >::class_type

Definition at line 386 of file FieldInterp.h.

template<class Field_T >
typedef RefBase CubicGenericFieldInterp< Field_T >::base [private]

Convenience typedef for referring to base class.

Definition at line 413 of file FieldInterp.h.


Member Function Documentation

template<class Field_T >
static const char* CubicGenericFieldInterp< Field_T >::staticClassName ( ) [inline, static]

Definition at line 389 of file FieldInterp.h.

  {
    return "CubicGenericFieldInterp";
  }
template<class Field_T >
static const char* CubicGenericFieldInterp< Field_T >::classType ( ) [inline, static]

Reimplemented from RefBase.

Definition at line 394 of file FieldInterp.h.

References CubicGenericFieldInterp< Field_T >::ms_classType, and TemplatedFieldType< Field_T >::name().

  {
    return ms_classType.name();    
  }
template<class Field_T >
Field_T::value_type CubicGenericFieldInterp< Field_T >::sample ( const Field_T &  data,
const V3d vsP 
) const

Definition at line 1083 of file FieldInterp.h.

References monotonicCubicInterpolant().

{
  typedef typename Field_T::value_type Data_T;

  // Pixel centers are at .5 coordinates
  // NOTE: Don't use contToDisc for this, we're looking for sample
  // point locations, not coordinate shifts.
  V3d clampedVsP(std::max(0.5, vsP.x),
                 std::max(0.5, vsP.y),
                 std::max(0.5, vsP.z));
  FIELD3D_VEC3_T<double> p(clampedVsP - FIELD3D_VEC3_T<double>(0.5));

  const Box3i &dataWindow = data.dataWindow();

  // Lower left corner
  V3i c(static_cast<int>(floor(p.x)), 
        static_cast<int>(floor(p.y)), 
        static_cast<int>(floor(p.z)));

  // Fractions
  FIELD3D_VEC3_T<double> t(p - static_cast<FIELD3D_VEC3_T<double> >(c));

  // Clamp the coordinates
  int im, jm, km;
  im = std::max(dataWindow.min.x, std::min(c.x, dataWindow.max.x));
  jm = std::max(dataWindow.min.y, std::min(c.y, dataWindow.max.y));
  km = std::max(dataWindow.min.z, std::min(c.z, dataWindow.max.z));
  int im_1, jm_1, km_1;
  im_1 = std::max(dataWindow.min.x, std::min(im - 1, dataWindow.max.x));
  jm_1 = std::max(dataWindow.min.y, std::min(jm - 1, dataWindow.max.y));
  km_1 = std::max(dataWindow.min.z, std::min(km - 1, dataWindow.max.z));
  int im1, jm1, km1;
  im1 = std::max(dataWindow.min.x, std::min(im + 1, dataWindow.max.x));
  jm1 = std::max(dataWindow.min.y, std::min(jm + 1, dataWindow.max.y));
  km1 = std::max(dataWindow.min.z, std::min(km + 1, dataWindow.max.z));
  int im2, jm2, km2;
  im2 = std::max(dataWindow.min.x, std::min(im + 2, dataWindow.max.x));
  jm2 = std::max(dataWindow.min.y, std::min(jm + 2, dataWindow.max.y));
  km2 = std::max(dataWindow.min.z, std::min(km + 2, dataWindow.max.z));

  Data_T z11 = monotonicCubicInterpolant(data.fastValue(im_1, jm_1, km_1), 
                                         data.fastValue(im_1, jm_1, km), 
                                         data.fastValue(im_1, jm_1, km1), 
                                         data.fastValue(im_1, jm_1, km2), t.z);
  Data_T z12 = monotonicCubicInterpolant(data.fastValue(im_1, jm, km_1), 
                                         data.fastValue(im_1, jm, km), 
                                         data.fastValue(im_1, jm, km1), 
                                         data.fastValue(im_1, jm, km2), t.z);
  Data_T z13 = monotonicCubicInterpolant(data.fastValue(im_1, jm1, km_1), 
                                         data.fastValue(im_1, jm1, km), 
                                         data.fastValue(im_1, jm1, km1), 
                                         data.fastValue(im_1, jm1, km2), t.z);
  Data_T z14 = monotonicCubicInterpolant(data.fastValue(im_1, jm2, km_1), 
                                         data.fastValue(im_1, jm2, km), 
                                         data.fastValue(im_1, jm2, km1), 
                                         data.fastValue(im_1, jm2, km2), t.z);

  Data_T z21 = monotonicCubicInterpolant(data.fastValue(im, jm_1, km_1), 
                                         data.fastValue(im, jm_1, km), 
                                         data.fastValue(im, jm_1, km1), 
                                         data.fastValue(im, jm_1, km2), t.z);
  Data_T z22 = monotonicCubicInterpolant(data.fastValue(im, jm, km_1), 
                                         data.fastValue(im, jm, km), 
                                         data.fastValue(im, jm, km1), 
                                         data.fastValue(im, jm, km2), t.z);
  Data_T z23 = monotonicCubicInterpolant(data.fastValue(im, jm1, km_1), 
                                         data.fastValue(im, jm1, km), 
                                         data.fastValue(im, jm1, km1), 
                                         data.fastValue(im, jm1, km2), t.z);
  Data_T z24 = monotonicCubicInterpolant(data.fastValue(im, jm2, km_1), 
                                         data.fastValue(im, jm2, km), 
                                         data.fastValue(im, jm2, km1), 
                                         data.fastValue(im, jm2, km2), t.z);

  Data_T z31 = monotonicCubicInterpolant(data.fastValue(im1, jm_1, km_1), 
                                         data.fastValue(im1, jm_1, km), 
                                         data.fastValue(im1, jm_1, km1), 
                                         data.fastValue(im1, jm_1, km2), t.z);
  Data_T z32 = monotonicCubicInterpolant(data.fastValue(im1, jm, km_1), 
                                         data.fastValue(im1, jm, km), 
                                         data.fastValue(im1, jm, km1), 
                                         data.fastValue(im1, jm, km2), t.z);
  Data_T z33 = monotonicCubicInterpolant(data.fastValue(im1, jm1, km_1), 
                                         data.fastValue(im1, jm1, km), 
                                         data.fastValue(im1, jm1, km1), 
                                         data.fastValue(im1, jm1, km2), t.z);
  Data_T z34 = monotonicCubicInterpolant(data.fastValue(im1, jm2, km_1), 
                                         data.fastValue(im1, jm2, km), 
                                         data.fastValue(im1, jm2, km1), 
                                         data.fastValue(im1, jm2, km2), t.z);

  Data_T z41 = monotonicCubicInterpolant(data.fastValue(im2, jm_1, km_1), 
                                         data.fastValue(im2, jm_1, km), 
                                         data.fastValue(im2, jm_1, km1), 
                                         data.fastValue(im2, jm_1, km2), t.z);
  Data_T z42 = monotonicCubicInterpolant(data.fastValue(im2, jm, km_1), 
                                         data.fastValue(im2, jm, km), 
                                         data.fastValue(im2, jm, km1), 
                                         data.fastValue(im2, jm, km2), t.z);
  Data_T z43 = monotonicCubicInterpolant(data.fastValue(im2, jm1, km_1), 
                                         data.fastValue(im2, jm1, km), 
                                         data.fastValue(im2, jm1, km1), 
                                         data.fastValue(im2, jm1, km2), t.z);
  Data_T z44 = monotonicCubicInterpolant(data.fastValue(im2, jm2, km_1), 
                                         data.fastValue(im2, jm2, km), 
                                         data.fastValue(im2, jm2, km1), 
                                         data.fastValue(im2, jm2, km2), t.z);

  Data_T y1 = monotonicCubicInterpolant(z11, z12, z13, z14, t.y);
  Data_T y2 = monotonicCubicInterpolant(z21, z22, z23, z24, t.y);
  Data_T y3 = monotonicCubicInterpolant(z31, z32, z33, z34, t.y);
  Data_T y4 = monotonicCubicInterpolant(z41, z42, z43, z44, t.y);
                   
  Data_T z0 = monotonicCubicInterpolant(y1, y2, y3, y4, t.x);

  return z0;
}

Member Data Documentation

template<class Field_T >
CubicGenericFieldInterp< Field_T >::DEFINE_FIELD_RTTI_CONCRETE_CLASS

Definition at line 387 of file FieldInterp.h.

template<class Field_T >
TemplatedFieldType<CubicGenericFieldInterp<Field_T> > CubicGenericFieldInterp< Field_T >::ms_classType [static, private]

Definition at line 408 of file FieldInterp.h.

Referenced by CubicGenericFieldInterp< Field_T >::classType().


The documentation for this class was generated from the following file: