#include "tparamset.h"
#include "tdoubleparam.h"
#include "texception.h"
#include "tstream.h"
//=========================================================
class TRangeParamImp
{
public:
TRangeParamImp(const DoublePair &v)
: m_min(new TDoubleParam(v.first)), m_max(new TDoubleParam(v.second))
{
}
TRangeParamImp(const TRangeParamImp &src)
: m_min(src.m_min->clone()), m_max(src.m_max->clone())
{
}
~TRangeParamImp() {}
TDoubleParamP m_min, m_max;
};
//---------------------------------------------------------
PERSIST_IDENTIFIER(TRangeParam, "rangeParam")
TRangeParam::TRangeParam(const DoublePair &v)
: m_data(new TRangeParamImp(v))
{
addParam(m_data->m_min, "min");
addParam(m_data->m_max, "max");
}
//---------------------------------------------------------
TRangeParam::TRangeParam(const TRangeParam &src)
: TParamSet(src.getName()), m_data(new TRangeParamImp(*src.m_data))
{
addParam(m_data->m_min, "min");
addParam(m_data->m_max, "max");
}
//---------------------------------------------------------
TRangeParam::~TRangeParam()
{
delete m_data;
}
//---------------------------------------------------------
void TRangeParam::copy(TParam *src)
{
TRangeParam *p = dynamic_cast<TRangeParam *>(src);
if (!p)
throw TException("invalid source for copy");
setName(src->getName());
m_data->m_min->copy(p->m_data->m_min.getPointer());
m_data->m_max->copy(p->m_data->m_max.getPointer());
}
//---------------------------------------------------------
DoublePair TRangeParam::getDefaultValue() const
{
return DoublePair(m_data->m_min->getDefaultValue(), m_data->m_max->getDefaultValue());
}
//---------------------------------------------------------
DoublePair TRangeParam::getValue(double frame) const
{
return DoublePair(m_data->m_min->getValue(frame), m_data->m_max->getValue(frame));
}
//---------------------------------------------------------
bool TRangeParam::setValue(double frame, const DoublePair &v)
{
beginParameterChange();
m_data->m_min->setValue(frame, v.first);
m_data->m_max->setValue(frame, v.second);
endParameterChange();
return true;
}
//---------------------------------------------------------
void TRangeParam::setDefaultValue(const DoublePair &v)
{
m_data->m_min->setDefaultValue(v.first);
m_data->m_max->setDefaultValue(v.second);
}
//---------------------------------------------------------
void TRangeParam::loadData(TIStream &is)
{
std::string childName;
while (is.openChild(childName)) {
if (childName == "min")
m_data->m_min->loadData(is);
else if (childName == "max")
m_data->m_max->loadData(is);
else
throw TException("unknown tag");
is.closeChild();
}
}
//---------------------------------------------------------
void TRangeParam::saveData(TOStream &os)
{
os.openChild("min");
m_data->m_min->saveData(os);
os.closeChild();
os.openChild("max");
m_data->m_max->saveData(os);
os.closeChild();
}
//---------------------------------------------------------
TDoubleParamP &TRangeParam::getMin()
{
return m_data->m_min;
}
//---------------------------------------------------------
TDoubleParamP &TRangeParam::getMax()
{
return m_data->m_max;
}
#ifdef BUTTA
//---------------------------------------------------------
int TRangeParam::getNextKeyframe(double frame) const
{
int f_min = m_data->m_min->getNextKeyframe(frame);
int f_max = m_data->m_max->getNextKeyframe(frame);
if (f_min <= f_max && f_min != -1)
return f_min;
else {
if (f_max != -1)
return f_max;
else
return -1;
}
}
//---------------------------------------------------------
int TRangeParam::getPrevKeyframe(double frame) const
{
int f_min = m_data->m_min->getPrevKeyframe(frame);
int f_max = m_data->m_max->getPrevKeyframe(frame);
if (f_min >= f_max)
return f_min;
else
return f_max;
}
//---------------------------------------------------------
void TRangeParam::deleteKeyframe(double frame, bool undoing)
{
m_data->m_min->deleteKeyframe(frame, undoing);
m_data->m_max->deleteKeyframe(frame, undoing);
}
//---------------------------------------------------------
bool TRangeParam::isKeyframe(double frame) const
{
bool min, max;
min = m_data->m_min->isKeyframe(frame);
max = m_data->m_max->isKeyframe(frame);
return (min || max);
}
//---------------------------------------------------------
#endif