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v/examples/snek/snek.js.v

198 lines
3.2 KiB
V

import gg
import gx
// import sokol.sapp
import time
import rand
// constants
const (
top_height = 100
canvas_size = 700
game_size = 17
tile_size = canvas_size / game_size
tick_rate_ms = 100
)
// types
struct Pos {
x int
y int
}
fn (a Pos) + (b Pos) Pos {
return Pos{a.x + b.x, a.y + b.y}
}
fn (a Pos) - (b Pos) Pos {
return Pos{a.x - b.x, a.y - b.y}
}
enum Direction {
up
down
left
right
}
struct App {
mut:
gg &gg.Context
score int
snake []Pos
dir Direction
last_dir Direction
food Pos
start_time i64
last_tick i64
}
// utility
fn (mut app App) reset_game() {
app.score = 0
app.snake = [
Pos{3, 8},
Pos{2, 8},
Pos{1, 8},
Pos{0, 8},
]
app.dir = .right
app.last_dir = app.dir
app.food = Pos{10, 8}
app.start_time = time.ticks()
app.last_tick = time.ticks()
}
fn (mut app App) move_food() {
for {
x := rand.intn(game_size) or { 0 }
y := rand.intn(game_size) or { 0 }
app.food = Pos{x, y}
if app.food !in app.snake {
return
}
}
}
// events
fn on_keydown(key gg.KeyCode, mod gg.Modifier, mut app App) {
match key {
.w, .up {
if app.last_dir != .down {
app.dir = .up
}
}
.s, .down {
if app.last_dir != .up {
app.dir = .down
}
}
.a, .left {
if app.last_dir != .right {
app.dir = .left
}
}
.d, .right {
if app.last_dir != .left {
app.dir = .right
}
}
else {}
}
}
fn on_frame(mut app App) {
app.gg.begin()
now := time.ticks()
if now - app.last_tick >= tick_rate_ms {
app.last_tick = now
// finding delta direction
delta_dir := match app.dir {
.up { Pos{0, -1} }
.down { Pos{0, 1} }
.left { Pos{-1, 0} }
.right { Pos{1, 0} }
}
// "snaking" along
mut prev := app.snake[0]
app.snake[0] = app.snake[0] + delta_dir
for i in 1 .. app.snake.len {
tmp := app.snake[i]
app.snake[i] = prev
prev = tmp
}
// adding last segment
if app.snake[0] == app.food {
app.move_food()
app.score++
/*
if app.score > app.best {
app.best = app.score
app.best.save()
}*/
app.snake << app.snake.last() + app.snake.last() - app.snake[app.snake.len - 2]
}
app.last_dir = app.dir
}
// drawing snake
for pos in app.snake {
app.gg.draw_rect(tile_size * pos.x, tile_size * pos.y + top_height, tile_size,
tile_size, gx.blue)
}
// drawing food
app.gg.draw_rect(tile_size * app.food.x, tile_size * app.food.y + top_height, tile_size,
tile_size, gx.red)
// drawing top
app.gg.draw_rect(0, 0, canvas_size, top_height, gx.black)
app.gg.draw_text(350, top_height / 2, 'Score: $app.score', gx.TextCfg{
color: gx.white
align: .center
vertical_align: .middle
size: 80
})
// checking if snake bit itself
if app.snake[0] in app.snake[1..] {
app.reset_game()
}
// checking if snake hit a wall
if app.snake[0].x < 0 || app.snake[0].x >= game_size || app.snake[0].y < 0
|| app.snake[0].y >= game_size {
app.reset_game()
}
app.gg.end()
}
// setup
fn main() {
mut app := App{
gg: &gg.Context{}
}
app.reset_game()
app.gg = gg.new_context(
bg_color: gx.white
frame_fn: on_frame
keydown_fn: on_keydown
user_data: &app
width: canvas_size
height: top_height + canvas_size
create_window: true
resizable: false
window_title: 'snek'
canvas: 'canvas'
)
app.gg.run()
}