mirror of
https://github.com/hajimehoshi/ebiten.git
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c6053bcf14
Updates #1380
421 lines
9.3 KiB
Go
421 lines
9.3 KiB
Go
// Copyright 2016 The Ebiten Authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package twenty48
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import (
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"errors"
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"image/color"
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"log"
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"math/rand"
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"sort"
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"strconv"
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"golang.org/x/image/font"
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"golang.org/x/image/font/opentype"
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"github.com/hajimehoshi/ebiten/v2"
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"github.com/hajimehoshi/ebiten/v2/examples/resources/fonts"
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"github.com/hajimehoshi/ebiten/v2/text"
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)
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var (
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mplusSmallFont font.Face
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mplusNormalFont font.Face
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mplusBigFont font.Face
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)
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func init() {
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tt, err := opentype.Parse(fonts.MPlus1pRegular_ttf)
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if err != nil {
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log.Fatal(err)
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}
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const dpi = 72
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mplusSmallFont, err = opentype.NewFace(tt, &opentype.FaceOptions{
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Size: 24,
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DPI: dpi,
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Hinting: font.HintingFull,
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})
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if err != nil {
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log.Fatal(err)
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}
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mplusNormalFont, err = opentype.NewFace(tt, &opentype.FaceOptions{
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Size: 32,
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DPI: dpi,
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Hinting: font.HintingFull,
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})
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if err != nil {
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log.Fatal(err)
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}
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mplusBigFont, err = opentype.NewFace(tt, &opentype.FaceOptions{
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Size: 48,
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DPI: dpi,
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Hinting: font.HintingFull,
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})
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if err != nil {
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log.Fatal(err)
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}
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}
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// TileData represents a tile information like a value and a position.
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type TileData struct {
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value int
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x int
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y int
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}
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// Tile represents a tile information including TileData and animation states.
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type Tile struct {
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current TileData
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// next represents a next tile information after moving.
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// next is empty when the tile is not about to move.
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next TileData
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movingCount int
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startPoppingCount int
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poppingCount int
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}
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// Pos returns the tile's current position.
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// Pos is used only at testing so far.
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func (t *Tile) Pos() (int, int) {
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return t.current.x, t.current.y
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}
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// NextPos returns the tile's next position.
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// NextPos is used only at testing so far.
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func (t *Tile) NextPos() (int, int) {
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return t.next.x, t.next.y
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}
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// Value returns the tile's current value.
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// Value is used only at testing so far.
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func (t *Tile) Value() int {
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return t.current.value
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}
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// NextValue returns the tile's current value.
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// NextValue is used only at testing so far.
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func (t *Tile) NextValue() int {
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return t.next.value
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}
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// NewTile creates a new Tile object.
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func NewTile(value int, x, y int) *Tile {
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return &Tile{
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current: TileData{
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value: value,
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x: x,
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y: y,
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},
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startPoppingCount: maxPoppingCount,
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}
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}
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// IsMoving returns a boolean value indicating if the tile is animating.
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func (t *Tile) IsMoving() bool {
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return 0 < t.movingCount
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}
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func (t *Tile) stopAnimation() {
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if 0 < t.movingCount {
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t.current = t.next
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t.next = TileData{}
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}
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t.movingCount = 0
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t.startPoppingCount = 0
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t.poppingCount = 0
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}
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func tileAt(tiles map[*Tile]struct{}, x, y int) *Tile {
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var result *Tile
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for t := range tiles {
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if t.current.x != x || t.current.y != y {
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continue
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}
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if result != nil {
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panic("not reach")
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}
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result = t
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}
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return result
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}
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func currentOrNextTileAt(tiles map[*Tile]struct{}, x, y int) *Tile {
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var result *Tile
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for t := range tiles {
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if 0 < t.movingCount {
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if t.next.x != x || t.next.y != y || t.next.value == 0 {
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continue
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}
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} else {
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if t.current.x != x || t.current.y != y {
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continue
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}
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}
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if result != nil {
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panic("not reach")
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}
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result = t
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}
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return result
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}
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const (
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maxMovingCount = 5
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maxPoppingCount = 6
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)
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// MoveTiles moves tiles in the given tiles map if possible.
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// MoveTiles returns true if there are tiles that are to move, otherwise false.
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//
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// When MoveTiles is called, all tiles must not be about to move.
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func MoveTiles(tiles map[*Tile]struct{}, size int, dir Dir) bool {
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vx, vy := dir.Vector()
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tx := []int{}
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ty := []int{}
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for i := 0; i < size; i++ {
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tx = append(tx, i)
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ty = append(ty, i)
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}
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if vx > 0 {
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sort.Sort(sort.Reverse(sort.IntSlice(tx)))
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}
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if vy > 0 {
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sort.Sort(sort.Reverse(sort.IntSlice(ty)))
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}
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moved := false
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for _, j := range ty {
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for _, i := range tx {
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t := tileAt(tiles, i, j)
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if t == nil {
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continue
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}
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if t.next != (TileData{}) {
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panic("not reach")
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}
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if t.IsMoving() {
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panic("not reach")
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}
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// (ii, jj) is the next position for tile t.
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// (ii, jj) is updated until a mergeable tile is found or
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// the tile t can't be moved any more.
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ii := i
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jj := j
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for {
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ni := ii + vx
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nj := jj + vy
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if ni < 0 || ni >= size || nj < 0 || nj >= size {
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break
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}
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tt := currentOrNextTileAt(tiles, ni, nj)
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if tt == nil {
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ii = ni
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jj = nj
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moved = true
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continue
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}
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if t.current.value != tt.current.value {
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break
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}
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if 0 < tt.movingCount && tt.current.value != tt.next.value {
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// tt is already being merged with another tile.
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// Break here without updating (ii, jj).
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break
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}
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ii = ni
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jj = nj
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moved = true
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break
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}
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// next is the next state of the tile t.
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next := TileData{}
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next.value = t.current.value
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// If there is a tile at the next position (ii, jj), this should be
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// mergeable. Let's merge.
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if tt := currentOrNextTileAt(tiles, ii, jj); tt != t && tt != nil {
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next.value = t.current.value + tt.current.value
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tt.next.value = 0
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tt.next.x = ii
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tt.next.y = jj
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tt.movingCount = maxMovingCount
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}
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next.x = ii
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next.y = jj
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if t.current != next {
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t.next = next
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t.movingCount = maxMovingCount
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}
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}
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}
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if !moved {
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for t := range tiles {
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t.next = TileData{}
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t.movingCount = 0
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}
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}
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return moved
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}
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func addRandomTile(tiles map[*Tile]struct{}, size int) error {
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cells := make([]bool, size*size)
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for t := range tiles {
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if t.IsMoving() {
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panic("not reach")
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}
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i := t.current.x + t.current.y*size
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cells[i] = true
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}
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availableCells := []int{}
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for i, b := range cells {
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if b {
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continue
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}
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availableCells = append(availableCells, i)
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}
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if len(availableCells) == 0 {
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return errors.New("twenty48: there is no space to add a new tile")
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}
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c := availableCells[rand.Intn(len(availableCells))]
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v := 2
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if rand.Intn(10) == 0 {
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v = 4
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}
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x := c % size
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y := c / size
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t := NewTile(v, x, y)
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tiles[t] = struct{}{}
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return nil
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}
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// Update updates the tile's animation states.
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func (t *Tile) Update() error {
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switch {
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case 0 < t.movingCount:
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t.movingCount--
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if t.movingCount == 0 {
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if t.current.value != t.next.value && 0 < t.next.value {
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t.poppingCount = maxPoppingCount
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}
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t.current = t.next
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t.next = TileData{}
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}
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case 0 < t.startPoppingCount:
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t.startPoppingCount--
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case 0 < t.poppingCount:
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t.poppingCount--
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}
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return nil
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}
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func colorToScale(clr color.Color) (float64, float64, float64, float64) {
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r, g, b, a := clr.RGBA()
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rf := float64(r) / 0xffff
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gf := float64(g) / 0xffff
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bf := float64(b) / 0xffff
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af := float64(a) / 0xffff
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// Convert to non-premultiplied alpha components.
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if 0 < af {
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rf /= af
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gf /= af
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bf /= af
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}
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return rf, gf, bf, af
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}
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func mean(a, b int, rate float64) int {
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return int(float64(a)*(1-rate) + float64(b)*rate)
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}
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func meanF(a, b float64, rate float64) float64 {
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return a*(1-rate) + b*rate
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}
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const (
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tileSize = 80
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tileMargin = 4
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)
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var (
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tileImage = ebiten.NewImage(tileSize, tileSize)
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)
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func init() {
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tileImage.Fill(color.White)
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}
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// Draw draws the current tile to the given boardImage.
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func (t *Tile) Draw(boardImage *ebiten.Image) {
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i, j := t.current.x, t.current.y
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ni, nj := t.next.x, t.next.y
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v := t.current.value
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if v == 0 {
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return
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}
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op := &ebiten.DrawImageOptions{}
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x := i*tileSize + (i+1)*tileMargin
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y := j*tileSize + (j+1)*tileMargin
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nx := ni*tileSize + (ni+1)*tileMargin
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ny := nj*tileSize + (nj+1)*tileMargin
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switch {
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case 0 < t.movingCount:
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rate := 1 - float64(t.movingCount)/maxMovingCount
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x = mean(x, nx, rate)
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y = mean(y, ny, rate)
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case 0 < t.startPoppingCount:
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rate := 1 - float64(t.startPoppingCount)/float64(maxPoppingCount)
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scale := meanF(0.0, 1.0, rate)
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op.GeoM.Translate(float64(-tileSize/2), float64(-tileSize/2))
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op.GeoM.Scale(scale, scale)
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op.GeoM.Translate(float64(tileSize/2), float64(tileSize/2))
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case 0 < t.poppingCount:
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const maxScale = 1.2
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rate := 0.0
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if maxPoppingCount*2/3 <= t.poppingCount {
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// 0 to 1
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rate = 1 - float64(t.poppingCount-2*maxPoppingCount/3)/float64(maxPoppingCount/3)
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} else {
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// 1 to 0
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rate = float64(t.poppingCount) / float64(maxPoppingCount*2/3)
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}
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scale := meanF(1.0, maxScale, rate)
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op.GeoM.Translate(float64(-tileSize/2), float64(-tileSize/2))
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op.GeoM.Scale(scale, scale)
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op.GeoM.Translate(float64(tileSize/2), float64(tileSize/2))
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}
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op.GeoM.Translate(float64(x), float64(y))
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r, g, b, a := colorToScale(tileBackgroundColor(v))
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op.ColorM.Scale(r, g, b, a)
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boardImage.DrawImage(tileImage, op)
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str := strconv.Itoa(v)
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f := mplusBigFont
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switch {
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case 3 < len(str):
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f = mplusSmallFont
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case 2 < len(str):
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f = mplusNormalFont
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}
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bound, _ := font.BoundString(f, str)
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w := (bound.Max.X - bound.Min.X).Ceil()
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h := (bound.Max.Y - bound.Min.Y).Ceil()
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x = x + (tileSize-w)/2
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y = y + (tileSize-h)/2 + h
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text.Draw(boardImage, str, f, x, y, tileColor(v))
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}
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