metaforce/Runtime/World/CFluidPlaneManager.cpp

#include "CFluidPlaneManager.hpp"
#include "CScriptWater.hpp"
#include "CExplosion.hpp"
#include "CStateManager.hpp"

namespace urde
{

CFluidPlaneManager::CFluidProfile CFluidPlaneManager::sProfile = {};

CFluidPlaneManager::CFluidPlaneManager()
: x0_rippleManager(20, 0.5f)
{
    sProfile.Clear();
    SetupRippleMap();
}

void CFluidPlaneManager::CFluidProfile::Clear()
{
    x0_ = 0.f;
    x4_ = 0.f;
    x8_ = 0.f;
    xc_ = 0.f;
    x10_ = 0.f;
}

void CFluidPlaneManager::StartFrame(bool b)
{
    x121_ = b;
    sProfile.Clear();
}

void CFluidPlaneManager::Update(float dt)
{
    x11c_uvT += dt;
    x0_rippleManager.Update(dt);
    for (CSplashRecord& record : x18_splashes)
    {
        record.SetTime(record.GetTime() + dt);
        if (record.GetTime() > 9999.f)
            record.SetTime(9999.f);
    }
}

float CFluidPlaneManager::GetLastRippleDeltaTime(TUniqueId rippler) const
{
    return x0_rippleManager.GetLastRippleDeltaTime(rippler);
}

float CFluidPlaneManager::GetLastSplashDeltaTime(TUniqueId splasher) const
{
    float newestTime = 9999.f;
    for (const CSplashRecord& record : x18_splashes)
        if (record.GetUniqueId() == splasher && newestTime > record.GetTime())
            newestTime = record.GetTime();
    return newestTime;
}

void CFluidPlaneManager::CreateSplash(TUniqueId splasher, CStateManager& mgr, const CScriptWater& water,
                                      const zeus::CVector3f& pos, float factor, bool sfx)
{
    if (water.CanRippleAtPoint(pos))
    {
        float oldestTime = 0.f;
        CSplashRecord* oldestRecord = nullptr;
        for (CSplashRecord& record : x18_splashes)
        {
            if (record.GetTime() > oldestTime)
            {
                oldestRecord = &record;
                oldestTime = record.GetTime();
            }
        }
        if (oldestRecord)
            *oldestRecord = CSplashRecord(0.f, splasher);
        else
            x18_splashes.emplace_back(0.f, splasher);
        float splashScale = water.GetSplashEffectScale(factor);
        if (water.GetSplashEffect(factor))
        {
            CExplosion* expl = new CExplosion(*water.GetSplashEffect(factor), mgr.AllocateUniqueId(), true,
                                              CEntityInfo(water.GetAreaIdAlways(), CEntity::NullConnectionList),
                                              "Splash", zeus::CTransform(zeus::CMatrix3f::skIdentityMatrix3f, pos),
                                               1, zeus::CVector3f{splashScale}, water.GetSplashColor());
            mgr.AddObject(expl);
        }
        if (sfx)
        {
            CSfxManager::AddEmitter(water.GetSplashSound(factor), pos, zeus::CVector3f::skUp,
                                    true, false, 0x7f, kInvalidAreaId);
        }
    }
}

static bool g_RippleMapSetup = false;
u8 CFluidPlaneManager::RippleValues[64][64] = {};
u8 CFluidPlaneManager::RippleMins[64] = {};
u8 CFluidPlaneManager::RippleMaxs[64] = {};
boo::ObjToken<boo::ITextureS> CFluidPlaneManager::RippleMapTex;

void CFluidPlaneManager::SetupRippleMap()
{
    if (g_RippleMapSetup)
        return;
    g_RippleMapSetup = true;

    float curX = 0.f;
    for (int i=0 ; i<64 ; ++i)
    {
        float curY = 0.f;
        float minY = 1.f;
        float maxY = 0.f;
        for (int j=0 ; j<64 ; ++j)
        {
            float rVal = 1.f - curY;
            float minX = curY;
            float maxX = 1.25f * (0.25f * rVal + 0.1f) + curY;
            if (curY < 0.f)
                minX = 0.f;
            else if (maxX > 1.f)
                maxX = 1.f;

            float val = 0.f;
            if (curX >= minX && curX <= maxX)
            {
                float t = (curX - minX) / (maxX - minX);
                if (t < 0.4f)
                    val = 2.5f * t;
                else if (t > 0.75f)
                    val = 4.f * (1.f - t);
                else
                    val = 1.f;
            }

            auto valA = u8(std::max(int(255.f * val * rVal * rVal) - 1, 0));
            RippleValues[i][j] = valA;
            if (valA != 0 && curY < minY)
                minY = curY;
            if (valA != 0 && curY > maxY)
                maxY = curY;

            curY += (1.f / 63.f);
        }

        auto valB = u8(std::max(int(255.f * minY) - 1, 0));
        auto valC = u8(std::min(int(255.f * maxY) + 1, 255));
        RippleMins[i] = valB;
        RippleMaxs[i] = valC;
        curX += (1.f / 63.f);
    }

    CGraphics::CommitResources([](boo::IGraphicsDataFactory::Context& ctx)
    {
        RippleMapTex = ctx.newStaticTexture(64, 64, 1, boo::TextureFormat::I8,
                                            boo::TextureClampMode::ClampToBlack, RippleValues, 64 * 64);
        return true;
    } BooTrace);
}

}