Twin-stick shooter
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package main
import (
"fmt"
"math"
"math/rand"
"time"
"github.com/Meshiest/go-dungeon/dungeon"
)
const dungeonScale = 4
// Level represents a game level.
type Level struct {
w, h int
tiles [][]*Tile // (Y,X) array of tiles
tileSize int
items []*gameItem
creeps []*gameCreep
liveCreeps int
player *gamePlayer
torches []*gameCreep
enterX, enterY int
exitX, exitY int
exitOpenTime time.Time
requiredSouls int
}
// Tile returns the tile at the provided coordinates, or nil.
func (l *Level) Tile(x, y int) *Tile {
if x >= 0 && y >= 0 && x < l.w && y < l.h {
return l.tiles[y][x]
}
return nil
}
// Size returns the size of the Level.
func (l *Level) Size() (width, height int) {
return l.w, l.h
}
func (l *Level) isFloor(x float64, y float64) bool {
t := l.Tile(int(math.Floor(x+.5)), int(math.Floor(y+.5)))
if t == nil {
return false
}
if !t.floor {
return false
}
return true
}
func (l *Level) newSpawnLocation() (float64, float64) {
SPAWNLOCATION:
for {
x := float64(1 + rand.Intn(l.w-2))
y := float64(1 + rand.Intn(l.h-2))
if !l.isFloor(x, y) {
continue
}
// Too close to player.
playerSafeSpace := 18.0
dx, dy := deltaXY(x, y, l.player.x, l.player.y)
if dx <= playerSafeSpace && dy <= playerSafeSpace {
continue
}
// Too close to garlic or holy water.
garlicSafeSpace := 2.0
for _, item := range l.items {
if item.health == 0 {
continue
}
dx, dy = deltaXY(x, y, item.x, item.y)
if dx <= garlicSafeSpace && dy <= garlicSafeSpace {
continue SPAWNLOCATION
}
}
return x, y
}
}
// NewLevel returns a new randomly generated Level.
func NewLevel(levelNum int, p *gamePlayer) (*Level, error) {
multiplier := levelNum
if multiplier > 2 {
multiplier = 2
}
l := &Level{
w: 336 * multiplier,
h: 336 * multiplier,
tileSize: 32,
player: p,
}
l.requiredSouls = 66
if levelNum == 2 {
l.requiredSouls = 666
} else if levelNum == 3 {
l.requiredSouls = 6666
}
var err error
sandstoneSS, err = LoadEnvironmentSpriteSheet()
if err != nil {
return nil, fmt.Errorf("failed to load embedded spritesheet: %s", err)
}
rooms := 33
if multiplier == 2 {
rooms = 66
}
d := dungeon.NewDungeon(l.w/dungeonScale, rooms)
dungeonFloor := 1
l.tiles = make([][]*Tile, l.h)
for y := 0; y < l.h; y++ {
l.tiles[y] = make([]*Tile, l.w)
for x := 0; x < l.w; x++ {
t := &Tile{}
if y < l.h-1 && d.Grid[x/dungeonScale][y/dungeonScale] == dungeonFloor {
if rand.Intn(13) == 0 {
t.AddSprite(sandstoneSS.FloorC)
} else {
t.AddSprite(sandstoneSS.FloorA)
}
t.floor = true
}
l.tiles[y][x] = t
}
}
neighbors := func(x, y int) [][2]int {
return [][2]int{
{x - 1, y - 1},
{x, y - 1},
{x + 1, y - 1},
{x + 1, y},
{x + 1, y + 1},
{x, y + 1},
{x - 1, y + 1},
{x - 1, y},
}
}
floorTile := func(x, y int) bool {
t := l.Tile(x, y)
if t == nil {
return false
}
return t.floor
}
var topWalls [][2]int
// Add walls.
for x := 0; x < l.w; x++ {
for y := 0; y < l.h; y++ {
t := l.Tile(x, y)
if t == nil {
continue
}
if !t.floor {
continue
}
for _, n := range neighbors(x, y) {
nx, ny := n[0], n[1]
neighbor := l.Tile(nx, ny)
if neighbor == nil || neighbor.floor || neighbor.wall {
continue
}
neighbor.wall = true
// From perspective of neighbor tile.
bottom := floorTile(nx, ny+1)
top := floorTile(nx, ny-1)
right := floorTile(nx+1, ny)
left := floorTile(nx-1, ny)
topLeft := floorTile(nx-1, ny-1)
topRight := floorTile(nx+1, ny-1)
bottomLeft := floorTile(nx-1, ny+1)
bottomRight := floorTile(nx+1, ny+1)
// Determine which wall sprite to belongs here.
spriteTop := !top && bottom
spriteLeft := (left || bottomLeft) && !right && !bottomRight && !bottom
spriteRight := (right || bottomRight) && !left && !bottomLeft && !bottom
spriteBottomRight := !topLeft && !top && topRight && !bottomLeft && !bottom && !bottomRight
spriteBottomLeft := topLeft && !top && !topRight && !bottomLeft && !bottom && !bottomRight
spriteBottom := top && !bottom
// Add wall sprite.
switch {
case spriteTop:
if !bottomLeft || !bottomRight || left || right {
neighbor.AddSprite(sandstoneSS.WallPillar)
c := newCreep(TypeTorch, l, l.player)
c.x, c.y = float64(nx), float64(ny)
l.creeps = append(l.creeps, c)
l.torches = append(l.torches, c)
} else {
neighbor.AddSprite(sandstoneSS.WallTop)
topWalls = append(topWalls, [2]int{nx, ny})
}
case spriteLeft:
if spriteBottom {
neighbor.AddSprite(sandstoneSS.WallBottom)
}
neighbor.AddSprite(sandstoneSS.WallLeft)
case spriteRight:
if spriteBottom {
neighbor.AddSprite(sandstoneSS.WallBottom)
}
neighbor.AddSprite(sandstoneSS.WallRight)
case spriteBottomLeft:
neighbor.AddSprite(sandstoneSS.WallBottomLeft)
case spriteBottomRight:
neighbor.AddSprite(sandstoneSS.WallBottomRight)
case spriteBottom:
neighbor.AddSprite(sandstoneSS.WallBottom)
}
}
}
}
entrance := topWalls[rand.Intn(len(topWalls))]
exit := entrance
for exit == entrance {
exit = topWalls[rand.Intn(len(topWalls))]
}
l.enterX, l.enterY = entrance[0], entrance[1]
l.exitX, l.exitY = exit[0], exit[1]
if levelNum > 1 {
l.Tile(l.enterX, l.enterY).sprites = nil
l.Tile(l.enterX, l.enterY).AddSprite(sandstoneSS.FloorA)
l.Tile(l.enterX, l.enterY).AddSprite(sandstoneSS.DoorClosed)
}
l.Tile(l.exitX, l.exitY).sprites = nil
l.Tile(l.exitX, l.exitY).AddSprite(sandstoneSS.FloorA)
l.Tile(l.exitX, l.exitY).AddSprite(sandstoneSS.DoorClosed)
// TODO special door for final exit
l.bakeLightmap()
return l, nil
}
func (l *Level) bakeLightmap() {
for x := 0; x < l.w; x++ {
for y := 0; y < l.h; y++ {
t := l.tiles[y][x]
v := 0.0
for _, torch := range l.torches {
if torch.health == 0 {
continue
}
torchV := colorScaleValue(float64(x), float64(y), torch.x, torch.y)
v += torchV
}
t.colorScale = v
}
}
}
func (l *Level) bakePartialLightmap(lx, ly int) {
radius := 16
for x := lx - radius; x < lx+radius; x++ {
for y := ly - radius; y < ly+radius; y++ {
t := l.Tile(x, y)
if t == nil {
continue
}
v := 0.0
for _, torch := range l.torches {
if torch.health == 0 {
continue
}
torchV := colorScaleValue(float64(x), float64(y), torch.x, torch.y)
v += torchV
}
t.colorScale = v
}
}
}
func (l *Level) addCreep(creepType int) *gameCreep {
c := newCreep(creepType, l, l.player)
l.creeps = append(l.creeps, c)
return c
}
func angle(x1, y1, x2, y2 float64) float64 {
return math.Atan2(y1-y2, x1-x2)
}
func colorScaleValue(x, y, bx, by float64) float64 {
dx, dy := deltaXY(x, y, bx, by)
sD := 7 / (dx + dy)
if sD > 1 {
sD = 1
}
sDB := sD
if dx > 4 {
sDB *= 0.6 / (dx / 4)
}
if dy > 4 {
sDB *= 0.6 / (dy / 4)
}
sD = sD * 2 * sDB
if sD > 1 {
sD = 1
}
return sD
}