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@ -18,6 +18,14 @@ namespace ESMTerrain
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{
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}
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const ESM::Land::LandData *Storage::getLandData (int cellX, int cellY, int flags)
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{
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if (const ESM::Land *land = getLand (cellX, cellY))
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return land->getLandData (flags);
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return 0;
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}
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bool Storage::getMinMaxHeights(float size, const osg::Vec2f ¢er, float &min, float &max)
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{
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assert (size <= 1 && "Storage::getMinMaxHeights, chunk size should be <= 1 cell");
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@ -32,17 +40,15 @@ namespace ESMTerrain
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int cellX = static_cast<int>(origin.x());
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int cellY = static_cast<int>(origin.y());
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const ESM::Land* land = getLand(cellX, cellY);
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if (!land || !(land->mDataTypes&ESM::Land::DATA_VHGT))
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return false;
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if (const ESM::Land::LandData *data = getLandData (cellX, cellY, ESM::Land::DATA_VHGT))
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{
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min = std::numeric_limits<float>::max();
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max = -std::numeric_limits<float>::max();
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for (int row=0; row<ESM::Land::LAND_SIZE; ++row)
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{
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for (int col=0; col<ESM::Land::LAND_SIZE; ++col)
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{
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float h = land->mLandData->mHeights[col*ESM::Land::LAND_SIZE+row];
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float h = data->mHeights[col*ESM::Land::LAND_SIZE+row];
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if (h > max)
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max = h;
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if (h < min)
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@ -52,6 +58,9 @@ namespace ESMTerrain
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return true;
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}
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return false;
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}
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void Storage::fixNormal (osg::Vec3f& normal, int cellX, int cellY, int col, int row)
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{
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while (col >= ESM::Land::LAND_SIZE-1)
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@ -74,12 +83,12 @@ namespace ESMTerrain
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--cellX;
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row += ESM::Land::LAND_SIZE-1;
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}
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const ESM::Land* land = getLand(cellX, cellY);
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if (land && land->mDataTypes&ESM::Land::DATA_VNML)
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if (const ESM::Land::LandData *data = getLandData (cellX, cellY, ESM::Land::DATA_VNML))
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{
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normal.x() = land->mLandData->mNormals[col*ESM::Land::LAND_SIZE*3+row*3];
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normal.y() = land->mLandData->mNormals[col*ESM::Land::LAND_SIZE*3+row*3+1];
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normal.z() = land->mLandData->mNormals[col*ESM::Land::LAND_SIZE*3+row*3+2];
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normal.x() = data->mNormals[col*ESM::Land::LAND_SIZE*3+row*3];
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normal.y() = data->mNormals[col*ESM::Land::LAND_SIZE*3+row*3+1];
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normal.z() = data->mNormals[col*ESM::Land::LAND_SIZE*3+row*3+2];
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normal.normalize();
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}
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else
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@ -109,12 +118,12 @@ namespace ESMTerrain
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++cellX;
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row = 0;
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}
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const ESM::Land* land = getLand(cellX, cellY);
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if (land && land->mDataTypes&ESM::Land::DATA_VCLR)
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if (const ESM::Land::LandData *data = getLandData (cellX, cellY, ESM::Land::DATA_VCLR))
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{
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color.r() = land->mLandData->mColours[col*ESM::Land::LAND_SIZE*3+row*3] / 255.f;
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color.g() = land->mLandData->mColours[col*ESM::Land::LAND_SIZE*3+row*3+1] / 255.f;
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color.b() = land->mLandData->mColours[col*ESM::Land::LAND_SIZE*3+row*3+2] / 255.f;
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color.r() = data->mColours[col*ESM::Land::LAND_SIZE*3+row*3] / 255.f;
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color.g() = data->mColours[col*ESM::Land::LAND_SIZE*3+row*3+1] / 255.f;
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color.b() = data->mColours[col*ESM::Land::LAND_SIZE*3+row*3+2] / 255.f;
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}
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else
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{
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@ -158,9 +167,9 @@ namespace ESMTerrain
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float vertX_ = 0; // of current cell corner
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for (int cellX = startX; cellX < startX + std::ceil(size); ++cellX)
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{
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const ESM::Land* land = getLand(cellX, cellY);
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if (land && !(land->mDataTypes&ESM::Land::DATA_VHGT))
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land = NULL;
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const ESM::Land::LandData *heightData = getLandData (cellX, cellY, ESM::Land::DATA_VHGT);
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const ESM::Land::LandData *normalData = getLandData (cellX, cellY, ESM::Land::DATA_VNML);
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const ESM::Land::LandData *colourData = getLandData (cellX, cellY, ESM::Land::DATA_VCLR);
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int rowStart = 0;
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int colStart = 0;
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@ -177,20 +186,22 @@ namespace ESMTerrain
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vertX = vertX_;
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for (int row=rowStart; row<ESM::Land::LAND_SIZE; row += increment)
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{
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int arrayIndex = col*ESM::Land::LAND_SIZE*3+row*3;
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float height = -2048;
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if (land)
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height = land->mLandData->mHeights[col*ESM::Land::LAND_SIZE + row];
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if (heightData)
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height = heightData->mHeights[col*ESM::Land::LAND_SIZE + row];
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(*positions)[static_cast<unsigned int>(vertX*numVerts + vertY)]
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= osg::Vec3f((vertX / float(numVerts - 1) - 0.5f) * size * 8192,
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(vertY / float(numVerts - 1) - 0.5f) * size * 8192,
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height);
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if (land && land->mDataTypes&ESM::Land::DATA_VNML)
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if (normalData)
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{
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normal.x() = land->mLandData->mNormals[col*ESM::Land::LAND_SIZE*3+row*3];
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normal.y() = land->mLandData->mNormals[col*ESM::Land::LAND_SIZE*3+row*3+1];
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normal.z() = land->mLandData->mNormals[col*ESM::Land::LAND_SIZE*3+row*3+2];
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for (int i=0; i<3; ++i)
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normal[i] = normalData->mNormals[arrayIndex+i];
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normal.normalize();
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}
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else
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@ -208,11 +219,10 @@ namespace ESMTerrain
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(*normals)[static_cast<unsigned int>(vertX*numVerts + vertY)] = normal;
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if (land && land->mDataTypes&ESM::Land::DATA_VCLR)
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if (colourData)
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{
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color.r() = land->mLandData->mColours[col*ESM::Land::LAND_SIZE*3+row*3] / 255.f;
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color.g() = land->mLandData->mColours[col*ESM::Land::LAND_SIZE*3+row*3+1] / 255.f;
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color.b() = land->mLandData->mColours[col*ESM::Land::LAND_SIZE*3+row*3+2] / 255.f;
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for (int i=0; i<3; ++i)
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color[i] = colourData->mColours[arrayIndex+i] / 255.f;
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}
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else
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{
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@ -262,13 +272,12 @@ namespace ESMTerrain
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assert(x<ESM::Land::LAND_TEXTURE_SIZE);
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assert(y<ESM::Land::LAND_TEXTURE_SIZE);
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const ESM::Land* land = getLand(cellX, cellY);
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if (land && (land->mDataTypes&ESM::Land::DATA_VTEX))
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if (const ESM::Land::LandData *data = getLandData (cellX, cellY, ESM::Land::DATA_VTEX))
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{
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int tex = land->mLandData->mTextures[y * ESM::Land::LAND_TEXTURE_SIZE + x];
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int tex = data->mTextures[y * ESM::Land::LAND_TEXTURE_SIZE + x];
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if (tex == 0)
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return std::make_pair(0,0); // vtex 0 is always the base texture, regardless of plugin
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return std::make_pair(tex, land->mPlugin);
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return std::make_pair(tex, getLand (cellX, cellY)->mPlugin);
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}
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else
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return std::make_pair(0,0);
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@ -447,7 +456,7 @@ namespace ESMTerrain
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{
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assert(x < ESM::Land::LAND_SIZE);
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assert(y < ESM::Land::LAND_SIZE);
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return land->mLandData->mHeights[y * ESM::Land::LAND_SIZE + x];
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return land->getLandData()->mHeights[y * ESM::Land::LAND_SIZE + x];
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}
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Terrain::LayerInfo Storage::getLayerInfo(const std::string& texture)
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