468 lines
9.6 KiB
V
468 lines
9.6 KiB
V
// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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module main
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import rand
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import time
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import gx
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import gg2 as gg
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import sokol
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import sokol.sapp
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import math
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import freetype
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const (
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block_size = 20 // pixels
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field_height = 20 // # of blocks
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field_width = 10
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tetro_size = 4
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win_width = block_size * field_width
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win_height = block_size * field_height
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timer_period = 250 // ms
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text_size = 12
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limit_thickness = 3
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)
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const (
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text_cfg = gx.TextCfg{
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align:gx.align_left
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size:text_size
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color:gx.rgb(0, 0, 0)
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}
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over_cfg = gx.TextCfg{
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align:gx.align_left
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size:text_size
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color:gx.white
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}
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)
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const (
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// Tetros' 4 possible states are encoded in binaries
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b_tetros = [
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// 0000 0
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// 0000 0
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// 0110 6
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// 0110 6
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[66, 66, 66, 66],
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// 0000 0
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// 0000 0
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// 0010 2
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// 0111 7
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[27, 131, 72, 232],
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// 0000 0
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// 0000 0
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// 0011 3
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// 0110 6
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[36, 231, 36, 231],
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// 0000 0
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// 0000 0
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// 0110 6
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// 0011 3
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[63, 132, 63, 132],
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// 0000 0
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// 0011 3
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// 0001 1
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// 0001 1
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[311, 17, 223, 74],
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// 0000 0
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// 0011 3
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// 0010 2
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// 0010 2
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[322, 71, 113, 47],
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// Special case since 15 can't be used
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// 1111
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[1111, 9, 1111, 9],
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]
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// Each tetro has its unique color
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colors = [
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gx.rgb(0, 0, 0), // unused ?
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gx.rgb(255, 242, 0), // yellow quad
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gx.rgb(174, 0, 255), // purple triple
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gx.rgb(60, 255, 0), // green short topright
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gx.rgb(255, 0, 0), // red short topleft
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gx.rgb(255, 180, 31), // orange long topleft
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gx.rgb(33, 66, 255), // blue long topright
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gx.rgb(74, 198, 255), // lightblue longest
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gx.rgb(0, 170, 170), // unused ?
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]
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background_color = gx.white
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ui_color = gx.red
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)
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// TODO: type Tetro [tetro_size]struct{ x, y int }
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struct Block {
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mut:
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x int
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y int
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}
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enum GameState {
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paused running gameover
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}
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struct Game {
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mut:
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// Score of the current game
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score int
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// State of the current game
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state GameState
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// Position of the current tetro
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pos_x int
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pos_y int
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// field[y][x] contains the color of the block with (x,y) coordinates
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// "-1" border is to avoid bounds checking.
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// -1 -1 -1 -1
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// -1 0 0 -1
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// -1 0 0 -1
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// -1 -1 -1 -1
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field [][]int
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// TODO: tetro Tetro
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tetro []Block
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// TODO: tetros_cache []Tetro
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tetros_cache []Block
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// Index of the current tetro. Refers to its color.
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tetro_idx int
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// Index of the rotation (0-3)
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rotation_idx int
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// gg context for drawing
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gg &gg.GG
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// ft context for font drawing
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ft &freetype.FreeType
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font_loaded bool
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}
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fn frame(game &Game) {
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game.gg.begin()
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game.draw_scene()
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game.gg.end()
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}
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fn main() {
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mut game := &Game{}
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game.gg = gg.new_context(
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bg_color: gx.white
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width: win_width
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height: win_height
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use_ortho: true // This is needed for 2D drawing
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create_window: true
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window_title: 'V tetris'
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frame_fn: frame
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user_data: game
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//on_key_down: key_down
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event_cb: on_event
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)
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//font_path: os.resource_abs_path('assets/fonts/RobotoMono-Regular.ttf')
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/*
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gconfig := gg.Config{
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width: win_width
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height: win_height
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use_ortho: true // This is needed for 2D drawing
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create_window: true
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window_title: 'V Tetris'
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//window_user_ptr: game
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}
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fconfig := gg.Config{
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width: win_width
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height: win_height
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use_ortho: true
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font_path: '../assets/fonts/RobotoMono-Regular.ttf'
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font_size: 18
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scale: 2
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window_user_ptr: 0
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}
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mut game := &Game{
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gg: gg.new_context(gconfig)
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ft: freetype.new_context(fconfig)
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}
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*/
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//game.gg.window.set_user_ptr(game) // TODO remove this when `window_user_ptr:` works
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game.init_game()
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//game.gg.window.onkeydown(key_down)
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go game.run() // Run the game loop in a new thread
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game.gg.run() // Run the render loop in the main thread
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/*
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game.font_loaded = game.ft != 0
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for {
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game.draw_scene()
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game.gg.render()
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if game.gg.window.should_close() {
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game.gg.window.destroy()
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return
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}
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}
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*/
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}
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fn (mut g Game) init_game() {
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g.parse_tetros()
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rand.seed(time.now().unix)
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g.generate_tetro()
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g.field = [] // TODO: g.field = [][]int
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// Generate the field, fill it with 0's, add -1's on each edge
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for _ in 0..field_height + 2 {
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mut row := [0].repeat(field_width + 2)
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row[0] = - 1
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row[field_width + 1] = - 1
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g.field << row
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}
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mut first_row := g.field[0]
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mut last_row := g.field[field_height + 1]
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for j in 0..field_width + 2 {
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first_row[j] = - 1
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last_row[j] = - 1
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}
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g.score = 0
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g.state = .running
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}
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fn (mut g Game) parse_tetros() {
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for b_tetros0 in b_tetros {
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for b_tetro in b_tetros0 {
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for t in parse_binary_tetro(b_tetro) {
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g.tetros_cache << t
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}
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}
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}
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}
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fn (mut g Game) run() {
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for {
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if g.state == .running {
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g.move_tetro()
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g.delete_completed_lines()
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}
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//glfw.post_empty_event() // force window redraw
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time.sleep_ms(timer_period)
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}
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}
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fn (mut g Game) move_tetro() {
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// Check each block in current tetro
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for block in g.tetro {
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y := block.y + g.pos_y + 1
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x := block.x + g.pos_x
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// Reached the bottom of the screen or another block?
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// TODO: if g.field[y][x] != 0
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//if g.field[y][x] != 0 {
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row := g.field[y]
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if row[x] != 0 {
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// The new tetro has no space to drop => end of the game
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if g.pos_y < 2 {
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g.state = .gameover
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return
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}
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// Drop it and generate a new one
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g.drop_tetro()
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g.generate_tetro()
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return
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}
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}
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g.pos_y++
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}
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fn (mut g Game) move_right(dx int) bool {
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// Reached left/right edge or another tetro?
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for i in 0..tetro_size {
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tetro := g.tetro[i]
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y := tetro.y + g.pos_y
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x := tetro.x + g.pos_x + dx
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row := g.field[y]
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if row[x] != 0 {
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// Do not move
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return false
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}
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}
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g.pos_x += dx
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return true
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}
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fn (mut g Game) delete_completed_lines() {
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for y := field_height; y >= 1; y-- {
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g.delete_completed_line(y)
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}
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}
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fn (mut g Game) delete_completed_line(y int) {
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for x := 1; x <= field_width; x++ {
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f := g.field[y]
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if f[x] == 0 {
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return
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}
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}
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g.score += 10
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// Move everything down by 1 position
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for yy := y - 1; yy >= 1; yy-- {
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for x := 1; x <= field_width; x++ {
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mut a := g.field[yy + 1]
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b := g.field[yy]
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a[x] = b[x]
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}
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}
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}
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// Place a new tetro on top
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fn (mut g Game) generate_tetro() {
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g.pos_y = 0
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g.pos_x = field_width / 2 - tetro_size / 2
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g.tetro_idx = rand.next(b_tetros.len)
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g.rotation_idx = 0
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g.get_tetro()
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}
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// Get the right tetro from cache
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fn (mut g Game) get_tetro() {
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idx := g.tetro_idx * tetro_size * tetro_size + g.rotation_idx * tetro_size
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g.tetro = g.tetros_cache[idx..idx+tetro_size]
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}
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// TODO mut
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fn (g &Game) drop_tetro() {
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for i in 0..tetro_size{
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tetro := g.tetro[i]
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x := tetro.x + g.pos_x
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y := tetro.y + g.pos_y
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// Remember the color of each block
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// TODO: g.field[y][x] = g.tetro_idx + 1
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mut row := g.field[y]
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row[x] = g.tetro_idx + 1
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}
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}
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fn (g &Game) draw_tetro() {
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for i in 0..tetro_size {
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tetro := g.tetro[i]
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g.draw_block(g.pos_y + tetro.y, g.pos_x + tetro.x, g.tetro_idx + 1)
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}
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}
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fn (g &Game) draw_block(i, j, color_idx int) {
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color := if g.state == .gameover { gx.gray } else { colors[color_idx] }
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g.gg.draw_rect((j - 1) * block_size, (i - 1) * block_size,
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block_size - 1, block_size - 1, color)
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}
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fn (g &Game) draw_field() {
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for i := 1; i < field_height + 1; i++ {
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for j := 1; j < field_width + 1; j++ {
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f := g.field[i]
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if f[j] > 0 {
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g.draw_block(i, j, f[j])
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}
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}
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}
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}
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fn (mut g Game) draw_ui() {
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if g.font_loaded {
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g.ft.draw_text(1, 3, g.score.str(), text_cfg)
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if g.state == .gameover {
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g.gg.draw_rect(0, win_height / 2 - text_size, win_width,
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5 * text_size, ui_color)
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g.ft.draw_text(1, win_height / 2 + 0 * text_size, 'Game Over', over_cfg)
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g.ft.draw_text(1, win_height / 2 + 2 * text_size, 'Space to restart', over_cfg)
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} else if g.state == .paused {
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g.gg.draw_rect(0, win_height / 2 - text_size, win_width,
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5 * text_size, ui_color)
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g.ft.draw_text(1, win_height / 2 + 0 * text_size, 'Game Paused', text_cfg)
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g.ft.draw_text(1, win_height / 2 + 2 * text_size, 'SPACE to resume', text_cfg)
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}
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}
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//g.gg.draw_rect(0, block_size, win_width, limit_thickness, ui_color)
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}
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fn (mut g Game) draw_scene() {
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g.draw_tetro()
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g.draw_field()
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g.draw_ui()
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}
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fn parse_binary_tetro(t_ int) []Block {
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mut t := t_
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res := [Block{}].repeat(4)
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mut cnt := 0
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horizontal := t == 9// special case for the horizontal line
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for i := 0; i <= 3; i++ {
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// Get ith digit of t
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p := int(math.pow(10, 3 - i))
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mut digit := t / p
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t %= p
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// Convert the digit to binary
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for j := 3; j >= 0; j-- {
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bin := digit % 2
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digit /= 2
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if bin == 1 || (horizontal && i == tetro_size - 1) {
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// TODO: res[cnt].x = j
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// res[cnt].y = i
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mut point := &res[cnt]
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point.x = j
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point.y = i
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cnt++
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}
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}
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}
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return res
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}
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fn on_event(e &sapp.Event, game mut Game) {
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if e.typ == .key_down {
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game.key_down(e.key_code)
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}
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}
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fn (mut game Game) key_down(key sapp.KeyCode) {
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// global keys
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match key {
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.escape {
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exit(0)
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}
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.space {
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if game.state == .running {
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game.state = .paused
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} else if game.state == .paused {
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game.state = .running
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} else if game.state == .gameover {
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game.init_game()
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game.state = .running
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}
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}
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else {}
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}
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if game.state != .running {
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return
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}
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// keys while game is running
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match key {
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.up {
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// Rotate the tetro
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old_rotation_idx := game.rotation_idx
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game.rotation_idx++
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if game.rotation_idx == tetro_size {
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game.rotation_idx = 0
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}
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game.get_tetro()
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if !game.move_right(0) {
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game.rotation_idx = old_rotation_idx
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game.get_tetro()
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}
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if game.pos_x < 0 {
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//game.pos_x = 1
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}
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}
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.left {
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game.move_right(-1)
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}
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.right {
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game.move_right(1)
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}
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.down {
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game.move_tetro() // drop faster when the player presses <down>
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}
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else { }
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}
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}
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