metaforce/Runtime/World/CPathFindRegion.cpp

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#include "Runtime/World/CPathFindRegion.hpp"
#include "Runtime/World/CPathFindArea.hpp"
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namespace metaforce {
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CPFNode::CPFNode(CMemoryInStream& in) {
x0_position.readBig(in);
xc_normal.readBig(in);
}
CPFLink::CPFLink(CMemoryInStream& in) {
x0_node = in.readUint32Big();
x4_region = in.readUint32Big();
x8_2dWidth = in.readFloatBig();
xc_oo2dWidth = in.readFloatBig();
}
CPFRegion::CPFRegion(CMemoryInStream& in) {
x0_numNodes = in.readUint32Big();
x4_startNode = reinterpret_cast<CPFNode*>(in.readUint32Big());
x8_numLinks = in.readUint32Big();
xc_startLink = reinterpret_cast<CPFLink*>(in.readUint32Big());
x10_flags = in.readUint32Big();
x14_height = in.readFloatBig();
x18_normal.readBig(in);
x24_regionIdx = in.readUint32Big();
x28_centroid.readBig(in);
x34_aabb.readBoundingBoxBig(in);
x4c_regionData = reinterpret_cast<CPFRegionData*>(in.readUint32Big());
}
const CPFLink* CPFRegion::GetPathLink() const { return &xc_startLink[x4c_regionData->GetPathLink()]; }
void CPFRegion::Fixup(CPFArea& area, u32& maxRegionNodes) {
if (x0_numNodes != 0) {
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x4_startNode = &area.x140_nodes[reinterpret_cast<uintptr_t>(x4_startNode)];
} else {
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x4_startNode = nullptr;
}
if (x8_numLinks != 0) {
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xc_startLink = &area.x148_links[reinterpret_cast<uintptr_t>(xc_startLink)];
} else {
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xc_startLink = nullptr;
}
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x4c_regionData = &area.x178_regionDatas[x24_regionIdx];
if (x0_numNodes > maxRegionNodes) {
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maxRegionNodes = x0_numNodes;
}
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}
bool CPFRegion::IsPointInside(const zeus::CVector3f& point) const {
if (!x34_aabb.pointInside(point)) {
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return false;
}
u32 i;
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for (i = 0; i < x0_numNodes; ++i) {
const CPFNode& node = x4_startNode[i];
if ((point - node.GetPos()).dot(node.GetNormal()) < 0.f) {
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break;
}
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}
if (i != x0_numNodes) {
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return false;
}
const zeus::CVector3f nodeToPoint = point - x4_startNode->GetPos();
return nodeToPoint.dot(x18_normal) >= 0.f && (nodeToPoint - x14_height * zeus::skUp).dot(x18_normal) <= 0.f;
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}
float CPFRegion::PointHeight(const zeus::CVector3f& point) const {
return (point - x4_startNode->GetPos()).dot(x18_normal);
}
bool CPFRegion::FindClosestPointOnPolygon(const std::vector<zeus::CVector3f>& polyPoints, const zeus::CVector3f& normal,
const zeus::CVector3f& point, bool excludePolyPoints) const {
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bool found = false;
size_t i;
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for (i = 0; i < polyPoints.size(); ++i) {
const zeus::CVector3f& p0 = polyPoints[i];
const zeus::CVector3f& p1 = polyPoints[(i + 1) % polyPoints.size()];
if ((p1 - p0).cross(normal).dot(point - p0) < 0.f) {
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break;
}
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}
if (i == polyPoints.size()) {
const float distToPoly = (polyPoints.front() - point).dot(normal);
const float distToPolySq = distToPoly * distToPoly;
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if (distToPolySq < x4c_regionData->GetBestPointDistanceSquared()) {
found = true;
x4c_regionData->SetBestPointDistanceSquared(distToPolySq);
x4c_regionData->SetBestPoint(normal * distToPoly + point);
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}
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} else {
bool projected = false;
for (i = 0; i < polyPoints.size(); ++i) {
const zeus::CVector3f& p0 = polyPoints[i];
const zeus::CVector3f& p1 = polyPoints[(i + 1) % polyPoints.size()];
zeus::CVector3f p0ToP1 = p1 - p0;
zeus::CVector3f p1ToPoint = point - p1;
zeus::CVector3f sum = p1ToPoint + p0ToP1;
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if (p0ToP1.cross(normal).dot(p1ToPoint) < 0.f && p0ToP1.dot(p1ToPoint) <= 0.f && sum.dot(p0ToP1) >= 0.f) {
projected = true;
p0ToP1.normalize();
sum -= p0ToP1.dot(sum) * p0ToP1;
const float distSq = sum.magSquared();
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if (distSq < x4c_regionData->GetBestPointDistanceSquared()) {
found = true;
x4c_regionData->SetBestPointDistanceSquared(distSq);
x4c_regionData->SetBestPoint(point - sum);
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}
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break;
}
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}
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if (!projected && !excludePolyPoints) {
for (i = 0; i < polyPoints.size(); ++i) {
const zeus::CVector3f& p0 = polyPoints[i];
const float distSq = (point - p0).magSquared();
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if (distSq < x4c_regionData->GetBestPointDistanceSquared()) {
found = true;
x4c_regionData->SetBestPointDistanceSquared(distSq);
x4c_regionData->SetBestPoint(p0);
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}
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}
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}
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}
return found;
}
bool CPFRegion::FindBestPoint(std::vector<zeus::CVector3f>& polyPoints, const zeus::CVector3f& point, u32 flags,
float paddingSq) const {
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bool found = false;
const bool isFlyer = (flags & 0x2) != 0;
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x4c_regionData->SetBestPointDistanceSquared(paddingSq);
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if (!isFlyer) {
for (u32 i = 0; i < x0_numNodes; ++i) {
const CPFNode& node = x4_startNode[i];
const CPFNode& nextNode = x4_startNode[(i + 1) % x0_numNodes];
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polyPoints.clear();
polyPoints.push_back(node.GetPos());
polyPoints.push_back(node.GetPos());
polyPoints.back().z() += x14_height;
polyPoints.push_back(nextNode.GetPos());
polyPoints.back().z() += x14_height;
polyPoints.push_back(nextNode.GetPos());
found |= FindClosestPointOnPolygon(polyPoints, node.GetNormal(), point, true);
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}
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}
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polyPoints.clear();
for (u32 i = 0; i < x0_numNodes; ++i) {
const CPFNode& node = x4_startNode[i];
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polyPoints.push_back(node.GetPos());
}
found |= FindClosestPointOnPolygon(polyPoints, x18_normal, point, false);
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if (!isFlyer) {
polyPoints.clear();
for (int i = int(x0_numNodes) - 1; i >= 0; --i) {
const CPFNode& node = x4_startNode[i];
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polyPoints.push_back(node.GetPos());
polyPoints.back().z() += x14_height;
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}
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found |= FindClosestPointOnPolygon(polyPoints, -x18_normal, point, false);
}
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return found;
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}
void CPFRegion::SetLinkTo(u32 idx) {
if (x8_numLinks <= 0) {
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return;
}
for (u32 i = 0; i < x8_numLinks; ++i) {
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if (xc_startLink[i].GetRegion() == idx) {
Data()->SetPathLink(i);
return;
}
}
}
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void CPFRegion::DropToGround(zeus::CVector3f& point) const {
point.z() -= (point - x4_startNode->GetPos()).dot(x18_normal) / x18_normal.z();
}
zeus::CVector3f CPFRegion::GetLinkMidPoint(const CPFLink& link) const {
const CPFNode& node = x4_startNode[link.GetNode()];
const CPFNode& nextNode = x4_startNode[(link.GetNode() + 1) % x0_numNodes];
return (node.GetPos() + nextNode.GetPos()) * 0.5f;
}
zeus::CVector3f CPFRegion::FitThroughLink2d(const zeus::CVector3f& p1, const CPFLink& link, const zeus::CVector3f& p2,
float chRadius) const {
const CPFNode& node = x4_startNode[link.GetNode()];
const CPFNode& nextNode = x4_startNode[(link.GetNode() + 1) % x0_numNodes];
const zeus::CVector3f nodeDelta = nextNode.GetPos() - node.GetPos();
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float t = 0.5f;
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if (chRadius < 0.5f * link.Get2dWidth()) {
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zeus::CVector2f delta2d = nodeDelta.toVec2f();
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delta2d *= link.GetOO2dWidth();
const zeus::CVector3f nodeToP1 = p1 - node.GetPos();
const float f27 = nodeToP1.dot(node.GetNormal());
const float f31 = delta2d.dot(nodeToP1.toVec2f());
const zeus::CVector3f nodeToP2 = p2 - node.GetPos();
const float f26 = -nodeToP2.dot(node.GetNormal());
const float f1b = delta2d.dot(nodeToP2.toVec2f());
const float f3 = f27 + f26;
if (f3 > FLT_EPSILON) {
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t = zeus::clamp(chRadius, 1.f / f3 * (f26 * f31 + f27 * f1b), link.Get2dWidth() - chRadius) * link.GetOO2dWidth();
}
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}
return nodeDelta * t + node.GetPos();
}
zeus::CVector3f CPFRegion::FitThroughLink3d(const zeus::CVector3f& p1, const CPFLink& link, float regionHeight,
const zeus::CVector3f& p2, float chRadius, float chHalfHeight) const {
const CPFNode& node = x4_startNode[link.GetNode()];
const CPFNode& nextNode = x4_startNode[(link.GetNode() + 1) % x0_numNodes];
const zeus::CVector3f nodeDelta = nextNode.GetPos() - node.GetPos();
const float f25 = (p1 - node.GetPos()).dot(node.GetNormal());
const float f24 = (node.GetPos() - p2).dot(node.GetNormal());
const float f23 = f25 + f24;
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#if 0
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if (chRadius < 0.5f * link.Get2dWidth()) {
zeus::CVector2f delta2d(nodeDelta.x, nodeDelta.y);
delta2d *= link.GetOO2dWidth();
const zeus::CVector3f nodeToP1 = p1 - node.GetPos();
const float f29 = delta2d.dot(zeus::CVector2f(nodeToP1.y, nodeToP1.y));
const zeus::CVector3f nodeToP2 = p2 - node.GetPos();
const float f1b = delta2d.dot(zeus::CVector2f(nodeToP2.y, nodeToP2.y));
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if (f23 > FLT_EPSILON) {
zeus::clamp(chRadius, 1.f / f23 * f24 * f29 + f25 * f1b, link.Get2dWidth() - chRadius) * link.GetOO2dWidth();
}
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}
#endif
const zeus::CVector3f midPoint = nodeDelta * 0.5f + node.GetPos();
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float z;
if (chHalfHeight < 0.5f * regionHeight) {
const float minZ = chHalfHeight + midPoint.z();
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z = 0.5f * (p1.z() + p2.z());
if (f23 > FLT_EPSILON) {
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z = (f24 * p1.z() + f25 * p2.z()) / f23;
}
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z = zeus::clamp(minZ, z, regionHeight + midPoint.z() - chHalfHeight);
} else {
z = (p1.z() + p2.z()) * 0.5f;
}
return {midPoint.x(), midPoint.y(), z};
}
bool CPFRegion::IsPointInsidePaddedAABox(const zeus::CVector3f& point, float padding) const {
return point.x() >= x34_aabb.min.x() - padding && point.x() <= x34_aabb.max.x() + padding &&
point.y() >= x34_aabb.min.y() - padding && point.y() <= x34_aabb.max.y() + padding &&
point.z() >= x34_aabb.min.z() - padding && point.z() <= x34_aabb.max.z() + padding;
}
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} // namespace metaforce