mirror of https://github.com/AxioDL/metaforce.git
193 lines
6.2 KiB
C++
193 lines
6.2 KiB
C++
#include "CRainSplashGenerator.hpp"
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#include "CStateManager.hpp"
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#include "World/CWorld.hpp"
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namespace urde {
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CRainSplashGenerator::CRainSplashGenerator(const zeus::CVector3f& scale, u32 maxSplashes, u32 genRate, float minZ,
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float alpha)
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: x14_scale(scale), x2c_minZ(minZ) {
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x30_alpha = std::min(1.f, alpha);
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x44_genRate = std::min(maxSplashes, genRate);
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x48_24 = false;
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x48_25_raining = true;
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x0_rainSplashes.reserve(maxSplashes);
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CGraphics::CommitResources([&](boo::IGraphicsDataFactory::Context& ctx) {
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for (int i = 0; i < maxSplashes; ++i)
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x0_rainSplashes.emplace_back(ctx);
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return true;
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} BooTrace);
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}
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void CRainSplashGenerator::SSplashLine::Draw(float alpha, float dt, const zeus::CVector3f& pos) const {
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if (x0_t > 0.f) {
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float delta = dt * xc_speed;
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float vt = std::max(0.f, x0_t - delta * x15_length);
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auto vertCount = u32((x0_t - vt) / delta + 1.f);
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m_renderer.Reset();
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for (u32 i = 0; i < vertCount; ++i) {
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float vertAlpha = vt * alpha;
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zeus::CVector3f vec(vt * x4_xEnd, vt * x8_yEnd, -4.f * vt * (vt - 1.f) * x10_zParabolaHeight);
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vec += pos;
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vt += delta;
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m_renderer.AddVertex(vec, zeus::CColor(1.f, vertAlpha), 1);
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}
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m_renderer.Render();
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}
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}
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void CRainSplashGenerator::SRainSplash::Draw(float alpha, float dt, const zeus::CVector3f& pos) const {
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for (const SSplashLine& line : x0_lines)
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line.Draw(alpha, dt, pos);
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}
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void CRainSplashGenerator::DoDraw(const zeus::CTransform& xf) const {
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CGraphics::SetModelMatrix(xf);
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if (x40_queueSize > 0) {
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if (x38_queueTail <= x3c_queueHead) {
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for (int i = x3c_queueHead; i < x0_rainSplashes.size(); ++i) {
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const SRainSplash& splash = x0_rainSplashes[i];
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splash.Draw(x30_alpha, x28_dt, splash.x64_pos);
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}
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for (int i = 0; i < x38_queueTail; ++i) {
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const SRainSplash& splash = x0_rainSplashes[i];
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splash.Draw(x30_alpha, x28_dt, splash.x64_pos);
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}
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} else {
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for (int i = x3c_queueHead; i < x38_queueTail; ++i) {
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const SRainSplash& splash = x0_rainSplashes[i];
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splash.Draw(x30_alpha, x28_dt, splash.x64_pos);
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}
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}
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}
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}
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void CRainSplashGenerator::Draw(const zeus::CTransform& xf) const {
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if (x48_25_raining)
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DoDraw(xf);
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}
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CRainSplashGenerator::SSplashLine::SSplashLine(boo::IGraphicsDataFactory::Context& ctx)
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: m_renderer(ctx, CLineRenderer::EPrimitiveMode::LineStrip, 3, nullptr, false) {}
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CRainSplashGenerator::SRainSplash::SRainSplash(boo::IGraphicsDataFactory::Context& ctx) {
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for (int i = 0; i < 4; ++i)
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x0_lines.emplace_back(ctx);
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}
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void CRainSplashGenerator::SSplashLine::Update(float dt, CStateManager& mgr) {
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if (!x16_active)
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return;
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if (x0_t <= 0.8f) {
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x14_ = u8(5.f * (1.f - x0_t) + 3.f * x0_t);
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x0_t += dt * xc_speed;
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} else if (x15_length != 0) {
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x15_length -= 1;
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} else {
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x16_active = false;
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xc_speed = mgr.GetActiveRandom()->Range(0.015625f, 8.f);
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x10_zParabolaHeight = mgr.GetActiveRandom()->Range(0.015625f, 0.03125f);
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x4_xEnd = mgr.GetActiveRandom()->Range(-0.125f, 0.125f);
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x8_yEnd = mgr.GetActiveRandom()->Range(-0.125f, 0.125f);
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x15_length = u8(mgr.GetActiveRandom()->Range(1, 2));
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}
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}
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void CRainSplashGenerator::SRainSplash::Update(float dt, CStateManager& mgr) {
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for (SSplashLine& point : x0_lines)
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point.Update(dt, mgr);
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}
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bool CRainSplashGenerator::SRainSplash::IsActive() const {
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bool ret = false;
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for (const SSplashLine& line : x0_lines)
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ret |= line.x16_active;
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return ret;
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}
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void CRainSplashGenerator::UpdateRainSplashRange(CStateManager& mgr, int start, int end, float dt) {
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for (int i = start; i < end; ++i) {
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SRainSplash& set = x0_rainSplashes[i];
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set.Update(dt, mgr);
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if (!set.IsActive()) {
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x40_queueSize -= 1;
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x3c_queueHead += 1;
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if (x3c_queueHead >= x0_rainSplashes.size())
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x3c_queueHead = 0;
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}
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}
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}
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void CRainSplashGenerator::UpdateRainSplashes(CStateManager& mgr, float magnitude, float dt) {
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x20_generateTimer += dt;
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x24_generateInterval = 1.f / (70.f * magnitude);
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if (x40_queueSize > 0) {
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if (x38_queueTail <= x3c_queueHead) {
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UpdateRainSplashRange(mgr, x3c_queueHead, int(x0_rainSplashes.size()), dt);
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UpdateRainSplashRange(mgr, 0, x38_queueTail, dt);
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} else {
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UpdateRainSplashRange(mgr, x3c_queueHead, x38_queueTail, dt);
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}
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}
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}
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void CRainSplashGenerator::Update(float dt, CStateManager& mgr) {
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EEnvFxType neededFx = mgr.GetWorld()->GetNeededEnvFx();
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x28_dt = dt;
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x48_25_raining = false;
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if (neededFx != EEnvFxType::None && mgr.GetEnvFxManager()->IsSplashActive() &&
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mgr.GetEnvFxManager()->GetRainMagnitude() != 0.f && neededFx == EEnvFxType::Rain) {
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UpdateRainSplashes(mgr, mgr.GetEnvFxManager()->GetRainMagnitude(), dt);
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x48_25_raining = true;
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}
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}
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u32 CRainSplashGenerator::GetNextBestPt(u32 pt, const std::vector<std::pair<zeus::CVector3f, zeus::CVector3f>>& vn,
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CRandom16& rand, float minZ) {
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auto& refVert = vn[pt];
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float maxDist = 0.f;
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u32 nextPt = pt;
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for (int i = 0; i < 3; ++i) {
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auto idx = u32(rand.Range(0, int(vn.size() - 1)));
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auto& vert = vn[idx];
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float distSq = (refVert.first - vert.first).magSquared();
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if (distSq > maxDist && vert.second.dot(zeus::skUp) >= 0.f &&
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(vert.first.z() <= 0.f || vert.first.z() > minZ)) {
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nextPt = idx;
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maxDist = distSq;
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}
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}
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return nextPt;
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}
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void CRainSplashGenerator::SRainSplash::SetPoint(const zeus::CVector3f& pos) {
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for (SSplashLine& line : x0_lines)
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line.SetActive();
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x64_pos = pos;
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}
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void CRainSplashGenerator::AddPoint(const zeus::CVector3f& pos) {
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if (x38_queueTail >= x0_rainSplashes.size())
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x38_queueTail = 0;
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x0_rainSplashes[x38_queueTail].SetPoint(pos);
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x40_queueSize += 1;
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x38_queueTail += 1;
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}
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void CRainSplashGenerator::GeneratePoints(const std::vector<std::pair<zeus::CVector3f, zeus::CVector3f>>& vn) {
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if (!x48_25_raining)
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return;
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if (x20_generateTimer > x24_generateInterval) {
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for (int i = 0; i < x44_genRate; ++i) {
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if (x40_queueSize >= x0_rainSplashes.size())
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break;
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x34_curPoint = GetNextBestPt(x34_curPoint, vn, x10_random, x2c_minZ);
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AddPoint(x14_scale * vn[x34_curPoint].first);
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}
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x20_generateTimer = 0.f;
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}
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}
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} // namespace urde
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