// Copyright 2014 by Sascha L. Teichmann // Use of this source code is governed by the MIT license // that can be found in the LICENSE file. package common import ( "image/color" "io/ioutil" "log" "path/filepath" "strconv" ) const ( tileWidth = 18 tileHeight = 18 yOrderCapacity = 512 ) const ( MaxHeight = 1934 MinHeight = -1934 ) // To scan the whole height in terms of the y coordinate // the database is queried in height units defined in the tileDepths table. var tileDepths = [...][2]int16{ {1024, MaxHeight}, {256, 1023}, {128, 255}, {64, 127}, {32, 63}, {16, 31}, {8, 15}, {4, 7}, {2, 3}, {0, 1}, {-1, 0}, {-4, -2}, {-8, -5}, {-16, -9}, {-32, -17}, {-64, -33}, {-128, -65}, {-256, -129}, {-1024, -257}, {MinHeight, -1025}} var BackgroundColor = color.RGBA{R: 0xff, G: 0xff, B: 0xff, A: 0xff} type BaseTileUpdateFunc func(x, y int, hash []byte) bool type BaseTileCreator struct { client *RedisClient colors *Colors renderer *Renderer yOrder *YOrder yMin int16 yMax int16 baseDir string update BaseTileUpdateFunc emptyImage []byte bg color.RGBA } func NewBaseTileCreator( client *RedisClient, colors *Colors, bg color.RGBA, yMin, yMax int16, transparent bool, baseDir string, update BaseTileUpdateFunc) *BaseTileCreator { renderer := NewRenderer(tileWidth, tileHeight, transparent) yMin, yMax = Order16(yMin, yMax) return &BaseTileCreator{ client: client, colors: colors, bg: bg, renderer: renderer, yOrder: NewYOrder(renderer, yOrderCapacity), yMin: yMin, yMax: yMax, baseDir: baseDir, update: update} } func (btc *BaseTileCreator) Close() error { return btc.client.Close() } func (btc *BaseTileCreator) CreateTile(x, z int16, i, j int) (bool, error) { btc.renderer.Reset() btc.renderer.SetPos(x, z) btc.yOrder.Reset() drawBlock := func(block *Block) { if err := btc.yOrder.RenderBlock(block, btc.colors); err != nil { log.Printf("WARN: rendering block failed: %s\n", err) } } var c1, c2 Coord nareas := make([]Area, 0, tileWidth*tileHeight/2) oareas := make([]Area, 1, tileWidth*tileHeight/2) oareas[0] = Area{ X1: 0, Z1: 0, X2: int16(tileWidth) - 1, Z2: int16(tileHeight) - 1} for _, yRange := range tileDepths { if yRange[0] > btc.yMax || yRange[1] < btc.yMin { continue } c1.Y = max16(yRange[0], btc.yMin) c2.Y = min16(yRange[1], btc.yMax) nareas = btc.renderer.UncoveredAreas(nareas, oareas) if len(nareas) == 0 { break } for _, area := range nareas { c1.X = area.X1 + x c1.Z = area.Z1 + z c2.X = area.X2 + x c2.Z = area.Z2 + z query := Cuboid{P1: c1, P2: c2} if err := btc.client.QueryCuboid(query, drawBlock); err != nil { return false, err } if err := btc.yOrder.Drain(btc.colors); err != nil { log.Printf("WARN: rendering block failed: %s\n", err) } } oareas, nareas = nareas, oareas[0:0] } path := filepath.Join(btc.baseDir, strconv.Itoa(i), strconv.Itoa(j)+".png") // Empty images are likely to be produced during seeding. if btc.update == nil && btc.renderer.IsEmpty() { // To avoid redundant encoding cache the resulting empty image. if btc.emptyImage == nil { var err error m := BackgroundImage((tileWidth-2)*16, (tileHeight-2)*16, btc.bg) if btc.emptyImage, err = EncodeToMem(m); err != nil { return false, err } } //log.Printf("Writing empty (%d, %d) to file %s\n", x, z, path) return true, ioutil.WriteFile(path, btc.emptyImage, 0666) } image := btc.renderer.CreateShadedImage( 16, 16, (tileWidth-2)*16, (tileHeight-2)*16, btc.colors, btc.bg) if btc.update == nil { log.Printf("Writing (%d, %d) to file %s.\n", x, z, path) return true, SaveAsPNG(path, image) } if btc.update(i, j, SHA1Image(image)) { log.Printf("Writing (%d, %d) to file %s.\n", x, z, path) return true, SaveAsPNGAtomic(path, image) } log.Printf("File %s does not change.\n", path) return false, nil }