mirror of https://github.com/AxioDL/metaforce.git
370 lines
13 KiB
C++
370 lines
13 KiB
C++
#include "VISIBuilder.hpp"
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#define VISI_MAX_LEVEL 10
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#define VISI_MIN_LENGTH 8.0
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static logvisor::Module Log("VISIBuilder");
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VISIBuilder::PVSRenderCache::PVSRenderCache(VISIRenderer& renderer)
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: m_renderer(renderer)
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{
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m_cache.reserve(1000);
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}
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static std::unique_ptr<VISIRenderer::RGBA8[]> RGBABuf(new VISIRenderer::RGBA8[256 * 256 * 6]);
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const VISIBuilder::Leaf& VISIBuilder::PVSRenderCache::GetLeaf(const zeus::CVector3f& vec)
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{
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auto search = m_cache.find(vec);
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if (search != m_cache.cend())
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{
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//Log.report(logvisor::Info, "Cache hit");
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return *search->second;
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}
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//Log.report(logvisor::Info, "Rendering");
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bool needsTransparent = false;
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m_renderer.RenderPVSOpaque(RGBABuf.get(), vec, needsTransparent);
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std::unique_ptr<Leaf> leafOut = std::make_unique<Leaf>();
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for (unsigned i=0 ; i<768*512 ; ++i)
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{
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const VISIRenderer::RGBA8& pixel = RGBABuf[i];
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uint32_t id = (pixel.b << 16) | (pixel.g << 8) | pixel.r;
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if (id != 0xffffff)
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leafOut->setBit(id);
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}
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auto setBitLambda = [&](int idx) { leafOut->setBit(idx); };
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auto setLightLambda = [&](int idx, EPVSVisSetState state)
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{
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if (state != EPVSVisSetState::EndOfTree)
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leafOut->setLightEnum(m_lightMetaBit + idx * 2, state);
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};
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if (needsTransparent)
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m_renderer.RenderPVSTransparent(setBitLambda, vec);
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m_renderer.RenderPVSEntitiesAndLights(setBitLambda, setLightLambda, vec);
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return *m_cache.emplace(std::make_pair(vec, std::move(leafOut))).first->second;
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}
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void VISIBuilder::Progress::report(int divisions)
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{
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m_prog += 1.f / divisions;
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printf(" %g%% \r", m_prog * 100.f);
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fflush(stdout);
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if (m_updatePercent)
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m_updatePercent(m_prog);
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}
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void VISIBuilder::Node::buildChildren(int level, int divisions, const zeus::CAABox& curAabb,
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PVSRenderCache& rc, Progress& prog, const bool& terminate)
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{
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if (terminate)
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return;
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// Recurse in while building node structure
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if (level < VISI_MAX_LEVEL)
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{
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// Heuristic split
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int splits[3];
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splits[0] = (curAabb.max.x - curAabb.min.x >= VISI_MIN_LENGTH) ? 2 : 1;
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splits[1] = (curAabb.max.y - curAabb.min.y >= VISI_MIN_LENGTH) ? 2 : 1;
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splits[2] = (curAabb.max.z - curAabb.min.z >= VISI_MIN_LENGTH) ? 2 : 1;
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if (splits[0] == 2)
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flags |= 0x1;
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if (splits[1] == 2)
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flags |= 0x2;
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if (splits[2] == 2)
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flags |= 0x4;
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int thisdiv = splits[0] * splits[1] * splits[2] * divisions;
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if (flags)
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{
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childNodes.resize(8);
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// Inward subdivide
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zeus::CAABox Z[2];
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if (flags & 0x4)
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curAabb.splitZ(Z[0], Z[1]);
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else
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Z[0] = curAabb;
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for (int i=0 ; i<splits[2] ; ++i)
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{
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zeus::CAABox Y[2];
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if (flags & 0x2)
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Z[i].splitY(Y[0], Y[1]);
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else
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Y[0] = Z[i];
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for (int j=0 ; j<splits[1] ; ++j)
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{
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zeus::CAABox X[2];
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if (flags & 0x1)
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Y[j].splitX(X[0], X[1]);
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else
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X[0] = Y[j];
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for (int k=0 ; k<splits[0] ; ++k)
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{
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childNodes[i*4 + j*2 + k].buildChildren(level + 1, thisdiv, X[k], rc, prog, terminate);
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}
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}
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}
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// Outward unsubdivide for like-leaves
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for (int i=0 ; i<3 ; ++i)
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{
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if (flags & 0x4 &&
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childNodes[0] == childNodes[4] &&
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(!(flags & 0x1) || childNodes[1] == childNodes[5]) &&
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(!(flags & 0x2) || childNodes[2] == childNodes[6]) &&
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(!(flags & 0x3) || childNodes[3] == childNodes[7]))
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{
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flags &= ~0x4;
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//Log.report(logvisor::Info, "Unsub Z");
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continue;
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}
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if (flags & 0x2 &&
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childNodes[0] == childNodes[2] &&
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(!(flags & 0x1) || childNodes[1] == childNodes[3]) &&
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(!(flags & 0x4) || childNodes[4] == childNodes[6]) &&
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(!(flags & 0x5) || childNodes[5] == childNodes[7]))
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{
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flags &= ~0x2;
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//Log.report(logvisor::Info, "Unsub Y");
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continue;
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}
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if (flags & 0x1 &&
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childNodes[0] == childNodes[1] &&
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(!(flags & 0x2) || childNodes[2] == childNodes[3]) &&
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(!(flags & 0x4) || childNodes[4] == childNodes[5]) &&
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(!(flags & 0x6) || childNodes[6] == childNodes[7]))
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{
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flags &= ~0x1;
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//Log.report(logvisor::Info, "Unsub X");
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continue;
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}
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break;
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}
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if (!flags)
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{
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// This is now a leaf node
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for (int i=0 ; i<8 ; ++i)
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leaf |= childNodes[i].leaf;
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//Log.report(logvisor::Info, "Leaf Promote");
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return;
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}
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}
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}
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if (!flags)
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{
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// This is a child node
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zeus::CVector3f center = curAabb.center();
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, curAabb.min.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, curAabb.min.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, curAabb.min.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, center.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, center.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, center.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, curAabb.max.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, curAabb.max.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, curAabb.max.y, curAabb.min.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, curAabb.min.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, curAabb.min.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, curAabb.min.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, center.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, center.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, center.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, curAabb.max.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, curAabb.max.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, curAabb.max.y, center.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, curAabb.min.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, curAabb.min.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, curAabb.min.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, center.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, center.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, center.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.min.x, curAabb.max.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(center.x, curAabb.max.y, curAabb.max.z));
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leaf |= rc.GetLeaf(zeus::CVector3f(curAabb.max.x, curAabb.max.y, curAabb.max.z));
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prog.report(divisions);
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}
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}
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static const int NumChildTable[] =
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{
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0, 2, 2, 4, 2, 4, 4, 8
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};
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void VISIBuilder::Node::calculateSizesAndOffs(size_t& cur, size_t leafSz)
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{
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cur += 1;
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flags |= 0x18;
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if (flags & 0x7)
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{
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int splits[3];
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splits[0] = (flags & 0x1) ? 2 : 1;
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splits[1] = (flags & 0x2) ? 2 : 1;
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splits[2] = (flags & 0x4) ? 2 : 1;
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// Inward accumulate
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const size_t startCur = cur;
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size_t maxDelta = 0;
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for (int i=0 ; i<splits[2] ; ++i)
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for (int j=0 ; j<splits[1] ; ++j)
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for (int k=0 ; k<splits[0] ; ++k)
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{
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const size_t nodeSel = i*4 + j*2 + k;
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const size_t delta = cur - startCur;
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if (delta > maxDelta)
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maxDelta = delta;
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childRelOffs[nodeSel] = delta;
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childNodes[nodeSel].calculateSizesAndOffs(cur, leafSz);
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}
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const int numChildren = NumChildTable[flags & 0x7];
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if (maxDelta > 0xffff)
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{
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cur += (numChildren - 1) * 3;
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flags |= 0x40;
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}
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else if (maxDelta > 0xff)
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{
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cur += (numChildren - 1) * 2;
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}
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else
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{
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cur += numChildren - 1;
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flags |= 0x20;
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}
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}
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else
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{
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if (!leaf)
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flags &= ~0x8;
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else
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cur += leafSz;
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}
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}
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void VISIBuilder::Node::writeNodes(athena::io::MemoryWriter& w, size_t leafBytes) const
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{
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w.writeUByte(flags);
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if (flags & 0x7)
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{
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int splits[3];
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splits[0] = (flags & 0x1) ? 2 : 1;
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splits[1] = (flags & 0x2) ? 2 : 1;
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splits[2] = (flags & 0x4) ? 2 : 1;
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// Write offsets
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for (int i=0 ; i<splits[2] ; ++i)
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for (int j=0 ; j<splits[1] ; ++j)
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for (int k=0 ; k<splits[0] ; ++k)
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{
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const size_t nodeSel = i*4 + j*2 + k;
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if (nodeSel == 0)
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continue;
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const size_t offset = childRelOffs[nodeSel];
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if (flags & 0x40)
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{
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w.writeUByte((offset >> 16) & 0xff);
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w.writeUByte((offset >> 8) & 0xff);
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w.writeUByte(offset & 0xff);
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}
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else if (flags & 0x20)
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{
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w.writeUByte(offset & 0xff);
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}
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else
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{
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w.writeUint16Big(offset);
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}
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}
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// Inward iterate
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for (int i=0 ; i<splits[2] ; ++i)
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for (int j=0 ; j<splits[1] ; ++j)
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for (int k=0 ; k<splits[0] ; ++k)
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{
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const size_t nodeSel = i*4 + j*2 + k;
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childNodes[nodeSel].writeNodes(w, leafBytes);
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}
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}
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else if (leaf)
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{
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leaf.write(w, leafBytes);
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}
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}
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std::vector<uint8_t> VISIBuilder::build(const zeus::CAABox& fullAabb,
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size_t modelCount,
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const std::vector<VISIRenderer::Entity>& entities,
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const std::vector<VISIRenderer::Light>& lights,
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FPercent updatePercent)
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{
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Log.report(logvisor::Info, "Started!");
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size_t featureCount = modelCount + entities.size();
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renderCache.m_lightMetaBit = featureCount;
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Progress prog(updatePercent);
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bool& terminate = renderCache.m_renderer.m_terminate;
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rootNode.buildChildren(0, 1, fullAabb, renderCache, prog, terminate);
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if (terminate)
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return {};
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// Lights cache their CPVSVisSet result enum as 2 bits
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size_t leafBitsCount = featureCount + lights.size() * 2;
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size_t leafBytesCount = ROUND_UP_8(leafBitsCount) / 8;
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// Calculate octree size and store relative offsets
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size_t octreeSz = 0;
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rootNode.calculateSizesAndOffs(octreeSz, leafBytesCount);
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size_t visiSz = 34 + entities.size() * 4 + lights.size() * leafBytesCount + 36 + octreeSz;
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size_t roundedVisiSz = ROUND_UP_32(visiSz);
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std::vector<uint8_t> dataOut(roundedVisiSz, 0);
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athena::io::MemoryWriter w(dataOut.data(), roundedVisiSz);
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w.writeUint32Big('VISI');
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w.writeUint32Big(2);
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w.writeBool(true);
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w.writeBool(true);
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w.writeUint32Big(featureCount);
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w.writeUint32Big(lights.size());
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w.writeUint32Big(0);
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w.writeUint32Big(entities.size());
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w.writeUint32Big(leafBytesCount);
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w.writeUint32Big(lights.size());
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for (const VISIRenderer::Entity& e : entities)
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{
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w.writeUint32Big(e.entityId);
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}
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for (const VISIRenderer::Light& l : lights)
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{
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const VISIBuilder::Leaf& leaf = renderCache.GetLeaf(l.point);
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leaf.write(w, leafBytesCount);
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}
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w.writeVec3fBig(fullAabb.min);
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w.writeVec3fBig(fullAabb.max);
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w.writeUint32Big(featureCount + lights.size());
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w.writeUint32Big(lights.size());
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w.writeUint32Big(octreeSz);
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rootNode.writeNodes(w, leafBytesCount);
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w.seekAlign32();
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printf("\n");
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Log.report(logvisor::Info, "Finished!");
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return dataOut;
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}
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