Source

Coin / src / nodes / SoUnits.cpp

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/*!
  \class SoUnits SoUnits.h Inventor/nodes/SoUnits.h
  \brief The SoUnits class is a node for setting unit types.
  \ingroup nodes

  Even though Coin doesn't care what units you are using in your scene
  graph \e per \e se, there's an advantage to using SoUnits nodes: you
  have a way to split your scene graph into different "conceptual"
  parts.

  When encountering SoUnit nodes, the traversal actions methods makes
  sure the following geometry is scaled accordingly.

  <b>FILE FORMAT/DEFAULTS:</b>
  \code
    Units {
        units METERS
    }
  \endcode
*/

// *************************************************************************

#include <Inventor/nodes/SoUnits.h>

#include <Inventor/actions/SoGetBoundingBoxAction.h>
#include <Inventor/actions/SoGLRenderAction.h>
#include <Inventor/actions/SoPickAction.h>
#include <Inventor/actions/SoCallbackAction.h>
#include <Inventor/actions/SoGetMatrixAction.h>
#include <Inventor/actions/SoGetPrimitiveCountAction.h>

#include <Inventor/elements/SoModelMatrixElement.h>
#include <Inventor/elements/SoUnitsElement.h>

#include "nodes/SoSubNodeP.h"

// *************************************************************************

/*!
  \enum SoUnits::Units

  Enumerates the available unit settings.
*/


/*!
  \var SoSFEnum SoUnits::units

  The units which will be used for nodes following this node in the
  traversal (until the next SoUnit node, if any). Default value of the
  field is SoUnits::METERS.
*/


// *************************************************************************

static const float factors[] = {
  1.0f, // METERS
  0.01f, // CENTIMETERS
  0.001f, // MILLIMETERS
  0.000001f, // MICROMETERS
  0.000001f, // MICRONS
  0.000000001f, // NANOMETERS
  0.0000000001f, // ANGSTROMS
  1000.0f, // KILOMETERS
  0.3048f, // FEET
  0.0254f, // INCHES
  3.52777737e-4f, // POINTS
  0.9144f, // YARDS
  1609.3f, // MILES
  1852.0f, // NAUTICAL
};

// *************************************************************************

SO_NODE_SOURCE(SoUnits);

/*!
  Constructor.
*/
SoUnits::SoUnits(void)
{
  SO_NODE_INTERNAL_CONSTRUCTOR(SoUnits);

  SO_NODE_ADD_FIELD(units, (SoUnits::METERS));

  SO_NODE_DEFINE_ENUM_VALUE(Units, METERS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, CENTIMETERS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, MILLIMETERS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, MICROMETERS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, MICRONS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, NANOMETERS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, ANGSTROMS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, KILOMETERS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, FEET);
  SO_NODE_DEFINE_ENUM_VALUE(Units, INCHES);
  SO_NODE_DEFINE_ENUM_VALUE(Units, POINTS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, YARDS);
  SO_NODE_DEFINE_ENUM_VALUE(Units, MILES);
  SO_NODE_DEFINE_ENUM_VALUE(Units, NAUTICAL_MILES);
  SO_NODE_SET_SF_ENUM_TYPE(units, Units);
}

/*!
  Destructor.
*/
SoUnits::~SoUnits()
{
}

// Doc from superclass.
void
SoUnits::initClass(void)
{
  SO_NODE_INTERNAL_INIT_CLASS(SoUnits, SO_FROM_INVENTOR_1);

  SO_ENABLE(SoGetBoundingBoxAction, SoUnitsElement);
  SO_ENABLE(SoGetMatrixAction, SoUnitsElement);
  SO_ENABLE(SoGLRenderAction, SoUnitsElement);
  SO_ENABLE(SoPickAction, SoUnitsElement);
  SO_ENABLE(SoCallbackAction, SoUnitsElement);
  SO_ENABLE(SoGetPrimitiveCountAction, SoUnitsElement);
}

// Doc from superclass.
void
SoUnits::getBoundingBox(SoGetBoundingBoxAction * action)
{
  SoUnits::doAction((SoAction*)action);
}

// Doc from superclass.
void
SoUnits::GLRender(SoGLRenderAction * action)
{
  SoUnits::doAction((SoAction*)action);
}

// Doc from superclass.
void
SoUnits::doAction(SoAction * action)
{
  if (this->units.isIgnored()) return;
  SoState * state = action->getState();

  SoUnitsElement::Units currentunit = SoUnitsElement::get(state);

  if (currentunit != (SoUnitsElement::Units)units.getValue()) {
    SoUnitsElement::set(state,
                        (SoUnitsElement::Units)units.getValue());

    float scale = factors[units.getValue()] / factors[currentunit];
    SoModelMatrixElement::scaleBy(state, this,
                                  SbVec3f(scale, scale, scale));
  }
}

// Doc from superclass.
void
SoUnits::callback(SoCallbackAction * action)
{
  SoUnits::doAction((SoAction *)action);
}

// Doc from superclass.
void
SoUnits::getMatrix(SoGetMatrixAction * action)
{
  if (this->units.isIgnored()) return;

  SoState * state = action->getState();
  SoUnitsElement::Units currentunit = SoUnitsElement::get(state);
  if (currentunit != (SoUnitsElement::Units) this->units.getValue()) {
    SoUnitsElement::set(state,
                        (SoUnitsElement::Units)units.getValue());

    float scale = factors[(int)this->units.getValue()] / factors[(int) currentunit];
    float inv = 1.0f / scale;
    
    SbMatrix m;
    m.setScale(SbVec3f(scale, scale, scale));
    action->getMatrix().multLeft(m);
    m.setScale(SbVec3f(inv, inv, inv));
    action->getInverse().multRight(m);
  }
}

// Doc from superclass.
void
SoUnits::pick(SoPickAction * action)
{
  SoUnits::doAction((SoAction *)action);
}

// Doc from superclass.
void
SoUnits::getPrimitiveCount(SoGetPrimitiveCountAction * action)
{
  SoUnits::doAction((SoAction *)action);
}