#include "Runtime/World/CFluidPlaneGPU.hpp" namespace metaforce { CFluidPlaneGPU::CFluidPlaneGPU(CAssetId texPattern1, CAssetId texPattern2, CAssetId texColor, CAssetId bumpMap, CAssetId envMap, CAssetId envBumpMap, CAssetId lightMap, float unitsPerLightmapTexel, float tileSize, u32 tileSubdivisions, EFluidType fluidType, float alpha, const zeus::CVector3f& bumpLightDir, float bumpScale, const CFluidUVMotion& mot, float turbSpeed, float turbDistance, float turbFreqMax, float turbFreqMin, float turbPhaseMax, float turbPhaseMin, float turbAmplitudeMax, float turbAmplitudeMin, float specularMin, float specularMax, float reflectionBlend, float reflectionSize, float rippleIntensity, u32 maxVertCount) : CFluidPlaneCPU(texPattern1, texPattern2, texColor, bumpMap, envMap, envBumpMap, lightMap, unitsPerLightmapTexel, tileSize, tileSubdivisions, fluidType, alpha, bumpLightDir, bumpScale, mot, turbSpeed, turbDistance, turbFreqMax, turbFreqMin, turbPhaseMax, turbPhaseMin, turbAmplitudeMax, turbAmplitudeMin, specularMin, specularMax, reflectionBlend, reflectionSize, rippleIntensity, maxVertCount) { m_tessellation = true; } void CFluidPlaneGPU::RenderStripWithRipples(float curY, const Heights& heights, const Flags& flags, int startYDiv, const CFluidPlaneRender::SPatchInfo& info, std::vector& vOut, std::vector& pvOut) { m_shader->bindTessellation(); int yTile = (startYDiv + CFluidPlaneRender::numSubdivisionsInTile - 1) / CFluidPlaneRender::numSubdivisionsInTile; int endXTile = (info.x0_xSubdivs + CFluidPlaneRender::numSubdivisionsInTile - 4) / CFluidPlaneRender::numSubdivisionsInTile; float yMin = curY; float subdivF = CFluidPlaneRender::numSubdivisionsInTile; float curX = info.x4_localMin.x(); int gridCell = info.x28_tileX + info.x2a_gridDimX * (info.x2e_tileY + yTile - 1); int xTile = 1; int tileSpan; for (int i = 1; i < info.x0_xSubdivs - 2; i += CFluidPlaneRender::numSubdivisionsInTile * tileSpan, gridCell += tileSpan, xTile += tileSpan, curX += info.x14_tileSize * tileSpan) { tileSpan = 1; if (info.x30_gridFlags && !info.x30_gridFlags[gridCell]) continue; CFluidPlaneShader::PatchVertex pv; size_t start = pvOut.size(); if ((flags[yTile][xTile] & 0x1f) == 0x1f) { for (; xTile + tileSpan <= endXTile; ++tileSpan) { if ((flags[yTile][xTile + tileSpan] & 0x1f) != 0x1f) break; if (info.x30_gridFlags && !info.x30_gridFlags[gridCell + tileSpan]) break; } pv.m_outerLevels.fill(subdivF); pv.m_innerLevels.fill(subdivF); } else { const bool north = (flags[yTile + 1][xTile] & 0x2) != 0; const bool west = (flags[yTile][xTile - 1] & 0x8) != 0; const bool east = (flags[yTile][xTile + 1] & 0x4) != 0; const bool south = (flags[yTile - 1][xTile] & 0x1) != 0; pv.m_outerLevels[0] = west ? subdivF : 1.f; pv.m_outerLevels[1] = south ? subdivF : 1.f; pv.m_outerLevels[2] = east ? subdivF : 1.f; pv.m_outerLevels[3] = north ? subdivF : 1.f; pv.m_innerLevels.fill(subdivF); } float curTileY = yMin; float curTileX = curX; for (int t = 0; t < tileSpan; ++t) { pv.m_pos = zeus::CVector4f(curTileX, curTileY, curTileX + info.x14_tileSize, curTileY + info.x14_tileSize); pvOut.push_back(pv); curTileX += info.x14_tileSize; } CGraphics::DrawArray(start, pvOut.size() - start); } } } // namespace metaforce