package biomesoplenty.world; import biomesoplenty.api.Biomes; import biomesoplenty.api.Blocks; import biomesoplenty.configuration.BOPBlocks; import biomesoplenty.configuration.BOPConfiguration; import net.minecraft.util.ChunkCoordinates; import net.minecraft.util.MathHelper; import net.minecraft.util.Vec3; import net.minecraft.world.World; import net.minecraft.world.WorldProvider; import net.minecraft.world.biome.WorldChunkManagerHell; import net.minecraft.world.chunk.IChunkProvider; import cpw.mods.fml.relauncher.Side; import cpw.mods.fml.relauncher.SideOnly; //import tdwp_ftw.biomesop.helpers.WorldChunkManagerPromised; public class WorldProviderPromised extends WorldProvider { public void registerWorldChunkManager() { if (Biomes.promisedLand.isPresent()) { this.worldChunkMgr = new WorldChunkManagerPromised(worldObj); //this.worldChunkMgr = new WorldChunkManagerHell(Biomes.promisedLand.get(), 0.8F, 0.1F); } this.dimensionId = BOPConfiguration.promisedLandDimID; } /** * A boolean that tells if a world does not have a sky. Used in calculating weather and skylight */ public boolean hasNoSky = false; public String getDimensionName() { return "Promised Land"; } public boolean canRespawnHere() { return false; } /** * Calculates the angle of sun and moon in the sky relative to a specified time (usually worldTime) */ public float calculateCelestialAngle(long par1, float par3) { return 1.0F; } /** * the y level at which clouds are rendered. */ public float getCloudHeight() { return 0.0F; } public boolean darkenSkyDuringRain() { return false; } /** * Will check if the x, z position specified is alright to be set as the map spawn point */ public boolean canCoordinateBeSpawn(int par1, int par2) { int var3 = this.worldObj.getFirstUncoveredBlock(par1, par2); return var3 == Blocks.holyGrass.get().blockID; } /** * Gets the hard-coded portal location to use when entering this dimension. */ public ChunkCoordinates getEntrancePortalLocation() { return new ChunkCoordinates(100, 50, 0); } public int getAverageGroundLevel() { return 64; } @Override public double getHorizon() { return 0.0D; } @SideOnly(Side.CLIENT) public boolean hasVoidParticles(boolean var1) { return false; } @SideOnly(Side.CLIENT) public boolean isSkyColored() { return true; } @Override public double getVoidFogYFactor() { return 1.0D; } @SideOnly(Side.CLIENT) /** * Return Vec3D with biome specific fog color */ public Vec3 getFogColor(float par1, float par2) { float var3 = MathHelper.cos(par1 * (float)Math.PI * 2.0F) * 2.0F + 0.5F; if (var3 < 0.0F) { var3 = 0.0F; } if (var3 > 1.0F) { var3 = 1.0F; } float var4 = 1.0F; float var5 = 0.91764705882F; float var6 = 0.4F; var4 *= var3 * 3.94F + 0.06F; var5 *= var3 * 0.94F + 0.06F; var6 *= var3 * 0.91F + 0.09F; return this.worldObj.getWorldVec3Pool().getVecFromPool((double)var4, (double)var5, (double)var6); } @Override public String getWelcomeMessage() { return "Entering the Promised Land"; } @Override public String getDepartMessage() { return "Leaving the Promised Land"; } @Override public IChunkProvider createChunkGenerator() { return new ChunkProviderPromised(this.worldObj, this.worldObj.getSeed()); } }