@Override public void rebuildChunk( final float x, final float y, final float z, final ChunkCompileTaskGenerator generator) { final CompiledOverlay compiledOverlay = new CompiledOverlay(); final BlockPos from = getPosition(); final BlockPos to = from.add(15, 15, 15); generator.getLock().lock(); RegionRenderCache regionRenderCache; final SchematicWorld schematic = (SchematicWorld) this.world; try { if (generator.getStatus() != ChunkCompileTaskGenerator.Status.COMPILING) { return; } if (from.getX() < 0 || from.getZ() < 0 || from.getX() >= schematic.getWidth() || from.getZ() >= schematic.getLength()) { generator.setCompiledChunk(CompiledChunk.DUMMY); return; } regionRenderCache = new RegionRenderCache(this.world, from.add(-1, -1, -1), to.add(1, 1, 1), 1); generator.setCompiledChunk(compiledOverlay); } finally { generator.getLock().unlock(); } final VisGraph visgraph = new VisGraph(); if (!regionRenderCache.extendedLevelsInChunkCache()) { ++renderChunksUpdated; final World mcWorld = Minecraft.getMinecraft().theWorld; final EnumWorldBlockLayer layer = EnumWorldBlockLayer.TRANSLUCENT; final WorldRenderer worldRenderer = generator.getRegionRenderCacheBuilder().getWorldRendererByLayer(layer); GeometryTessellator.setStaticDelta(ConfigurationHandler.blockDelta); for (final BlockPos pos : BlockPos.getAllInBox(from, to)) { if (schematic.isRenderingLayer && schematic.renderingLayer != pos.getY() || !schematic.isInside(pos)) { continue; } boolean render = false; int sides = 0; int color = 0; final IBlockState schBlockState = schematic.getBlockState(pos); final Block schBlock = schBlockState.getBlock(); if (schBlock.isOpaqueCube()) { visgraph.func_178606_a(pos); } final BlockPos mcPos = pos.add(schematic.position); final IBlockState mcBlockState = mcWorld.getBlockState(mcPos); final Block mcBlock = mcBlockState.getBlock(); final boolean isSchAirBlock = schematic.isAirBlock(pos); final boolean isMcAirBlock = mcWorld.isAirBlock(mcPos) || ConfigurationHandler.isExtraAirBlock(mcBlock); if (!isMcAirBlock) { if (isSchAirBlock && ConfigurationHandler.highlightAir) { render = true; sides = GeometryMasks.Quad.ALL; color = 0xBF00BF; } } if (!render) { if (ConfigurationHandler.highlight) { if (!isMcAirBlock) { if (schBlock != mcBlock) { render = true; color = 0xFF0000; } else if (schBlock.getMetaFromState(schBlockState) != mcBlock.getMetaFromState(mcBlockState)) { render = true; color = 0xBF5F00; } } else if (!isSchAirBlock) { render = true; color = 0x00BFFF; } } if (render) { if (schBlock.shouldSideBeRendered( schematic, pos.offset(EnumFacing.DOWN), EnumFacing.DOWN)) { sides |= GeometryMasks.Quad.DOWN; } if (schBlock.shouldSideBeRendered( schematic, pos.offset(EnumFacing.UP), EnumFacing.UP)) { sides |= GeometryMasks.Quad.UP; } if (schBlock.shouldSideBeRendered( schematic, pos.offset(EnumFacing.NORTH), EnumFacing.NORTH)) { sides |= GeometryMasks.Quad.NORTH; } if (schBlock.shouldSideBeRendered( schematic, pos.offset(EnumFacing.SOUTH), EnumFacing.SOUTH)) { sides |= GeometryMasks.Quad.SOUTH; } if (schBlock.shouldSideBeRendered( schematic, pos.offset(EnumFacing.WEST), EnumFacing.WEST)) { sides |= GeometryMasks.Quad.WEST; } if (schBlock.shouldSideBeRendered( schematic, pos.offset(EnumFacing.EAST), EnumFacing.EAST)) { sides |= GeometryMasks.Quad.EAST; } } } if (render && sides != 0) { if (!compiledOverlay.isLayerStarted(layer)) { compiledOverlay.setLayerStarted(layer); preRenderBlocks(worldRenderer, from); } GeometryTessellator.drawCuboid(worldRenderer, pos, sides, 0x3F000000 | color); compiledOverlay.setLayerUsed(layer); } } if (compiledOverlay.isLayerStarted(layer)) { postRenderBlocks(layer, x, y, z, worldRenderer, compiledOverlay); } } compiledOverlay.setVisibility(visgraph.computeVisibility()); }