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openmw-tes3coop/components/esm/loadpgrd.cpp

139 lines
3.7 KiB
C++

#include "loadpgrd.hpp"
#include "esmreader.hpp"
#include "esmwriter.hpp"
#include "defs.hpp"
namespace ESM
{
unsigned int Pathgrid::sRecordId = REC_PGRD;
Pathgrid::Point& Pathgrid::Point::operator=(const float rhs[3])
{
mX = static_cast<int>(rhs[0]);
mY = static_cast<int>(rhs[1]);
mZ = static_cast<int>(rhs[2]);
mAutogenerated = 0;
mConnectionNum = 0;
mUnknown = 0;
return *this;
}
Pathgrid::Point::Point(const float rhs[3])
: mX(static_cast<int>(rhs[0])),
mY(static_cast<int>(rhs[1])),
mZ(static_cast<int>(rhs[2])),
mAutogenerated(0),
mConnectionNum(0),
mUnknown(0)
{
}
Pathgrid::Point::Point():mX(0),mY(0),mZ(0),mAutogenerated(0),
mConnectionNum(0),mUnknown(0)
{
}
void Pathgrid::load(ESMReader &esm)
{
esm.getHNT(mData, "DATA", 12);
mCell = esm.getHNString("NAME");
mPoints.clear();
mEdges.clear();
// keep track of total connections so we can reserve edge vector size
int edgeCount = 0;
if (esm.isNextSub("PGRP"))
{
esm.getSubHeader();
int size = esm.getSubSize();
// Check that the sizes match up. Size = 16 * s2 (path points)
if (size != static_cast<int> (sizeof(Point) * mData.mS2))
esm.fail("Path point subrecord size mismatch");
else
{
int pointCount = mData.mS2;
mPoints.reserve(pointCount);
for (int i = 0; i < pointCount; ++i)
{
Point p;
esm.getExact(&p, sizeof(Point));
mPoints.push_back(p);
edgeCount += p.mConnectionNum;
}
}
}
if (esm.isNextSub("PGRC"))
{
esm.getSubHeader();
int size = esm.getSubSize();
if (size % sizeof(int) != 0)
esm.fail("PGRC size not a multiple of 4");
else
{
int rawConnNum = size / sizeof(int);
std::vector<int> rawConnections;
rawConnections.reserve(rawConnNum);
for (int i = 0; i < rawConnNum; ++i)
{
int currentValue;
esm.getT(currentValue);
rawConnections.push_back(currentValue);
}
std::vector<int>::const_iterator rawIt = rawConnections.begin();
int pointIndex = 0;
mEdges.reserve(edgeCount);
for(PointList::const_iterator it = mPoints.begin(); it != mPoints.end(); ++it, ++pointIndex)
{
unsigned char connectionNum = (*it).mConnectionNum;
for (int i = 0; i < connectionNum; ++i) {
Edge edge;
edge.mV0 = pointIndex;
edge.mV1 = *rawIt;
++rawIt;
mEdges.push_back(edge);
}
}
}
}
}
void Pathgrid::save(ESMWriter &esm) const
{
esm.writeHNT("DATA", mData, 12);
esm.writeHNCString("NAME", mCell);
if (!mPoints.empty())
{
esm.startSubRecord("PGRP");
for (PointList::const_iterator it = mPoints.begin(); it != mPoints.end(); ++it)
{
esm.writeT(*it);
}
esm.endRecord("PGRP");
}
if (!mEdges.empty())
{
esm.startSubRecord("PGRC");
for (std::vector<Edge>::const_iterator it = mEdges.begin(); it != mEdges.end(); ++it)
{
esm.writeT(it->mV1);
}
esm.endRecord("PGRC");
}
}
void Pathgrid::blank()
{
mCell.clear();
mData.mX = 0;
mData.mY = 0;
mData.mS1 = 0;
mData.mS2 = 0;
mPoints.clear();
mEdges.clear();
}
}