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tetris.gop
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tetris.gop
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import (
"c"
"c/raylib"
)
const (
BOARD_WIDTH = 10
BOARD_HEIGHT = 20
BLOCK_SIZE = 30
SCREENWIDTH = 300
SCREENHEIGHT = 600
)
const MAX_BLOCKS = 4
type Shape struct {
Blocks [MAX_BLOCKS]raylib.Vector2
Color raylib.Color
}
var SHAPES = []Shape{
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 0, Y: 0}, {X: 1, Y: 0}, {X: 2, Y: 0}, {X: 3, Y: 0}}, Color: raylib.SKYBLUE},
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 0, Y: 0}, {X: 1, Y: 0}, {X: 0, Y: 1}, {X: 1, Y: 1}}, Color: raylib.YELLOW},
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 1, Y: 0}, {X: 0, Y: 1}, {X: 1, Y: 1}, {X: 2, Y: 1}}, Color: raylib.PURPLE},
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 1, Y: 0}, {X: 2, Y: 0}, {X: 0, Y: 1}, {X: 1, Y: 1}}, Color: raylib.GREEN},
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 0, Y: 0}, {X: 1, Y: 0}, {X: 1, Y: 1}, {X: 2, Y: 1}}, Color: raylib.RED},
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 0, Y: 0}, {X: 0, Y: 1}, {X: 1, Y: 1}, {X: 2, Y: 1}}, Color: raylib.BLUE},
{Blocks: [MAX_BLOCKS]raylib.Vector2{{X: 2, Y: 0}, {X: 0, Y: 1}, {X: 1, Y: 1}, {X: 2, Y: 1}}, Color: raylib.ORANGE},
}
var board [BOARD_HEIGHT][BOARD_WIDTH]raylib.Color
var curShape Shape
var curPos raylib.Vector2
var fallTime = c.Float(0)
var fallSpeed = c.Float(0.2)
var score = 0
var scoreText = (*c.Char)(c.malloc(20))
var gameOver = false
func genShape() {
curShape = SHAPES[raylib.getRandomValue(0, 6)]
curPos = raylib.Vector2{BOARD_WIDTH/2 - 1, 0}
}
func checkCollision() bool {
for i := 0; i < MAX_BLOCKS; i++ {
x := int(curPos.X + curShape.Blocks[i].X)
y := int(curPos.Y + curShape.Blocks[i].Y)
if x < 0 || x >= BOARD_WIDTH || y >= BOARD_HEIGHT || (y >= 0 && board[y][x] != raylib.BLANK) {
return true
}
}
return false
}
func lockShape() {
for i := 0; i < MAX_BLOCKS; i++ {
x := int(curPos.X + curShape.Blocks[i].X)
y := int(curPos.Y + curShape.Blocks[i].Y)
if y >= 0 {
board[y][x] = curShape.Color
}
}
}
func rotateShape() {
rotated := curShape
for i := 0; i < MAX_BLOCKS; i++ {
x := rotated.Blocks[i].X
rotated.Blocks[i].X = -rotated.Blocks[i].Y
rotated.Blocks[i].Y = x
}
temp := curShape
curShape = rotated
if checkCollision() {
curShape = temp
}
}
func clearLines() int {
linesCleared := 0
for y := BOARD_HEIGHT - 1; y >= 0; y-- {
lineFull := true
for x := 0; x < BOARD_WIDTH; x++ {
if board[y][x] == raylib.BLANK {
lineFull = false
break
}
}
if lineFull {
for yy := y; yy > 0; yy-- {
for x := 0; x < BOARD_WIDTH; x++ {
board[yy][x] = board[yy-1][x]
}
}
for x := 0; x < BOARD_WIDTH; x++ {
board[0][x] = raylib.BLANK
}
y += 1
linesCleared += 1
}
}
return linesCleared
}
func keyPressed(key c.Int) bool {
return raylib.isKeyPressed(key) || raylib.isKeyPressedRepeat(key)
}
raylib.initWindow SCREENWIDTH, SCREENHEIGHT, c"tetris (powered by raylib and Go+)"
raylib.setTargetFPS 60
genShape
for !raylib.windowShouldClose && !gameOver {
fallTime += raylib.getFrameTime
if fallTime >= fallSpeed {
fallTime = 0
curPos.Y += 1
if checkCollision() {
curPos.Y -= 1
lockShape
linesCleared := clearLines()
score += linesCleared * 100
genShape
if checkCollision() {
gameOver = true
}
}
}
if keyPressed(raylib.KEY_LEFT) {
curPos.X--
if checkCollision() {
curPos.X++
}
}
if keyPressed(raylib.KEY_RIGHT) {
curPos.X++
if checkCollision() {
curPos.X--
}
}
if keyPressed(raylib.KEY_SPACE) || keyPressed(raylib.KEY_UP) || keyPressed(raylib.KEY_DOWN) {
rotateShape
}
raylib.beginDrawing
raylib.clearBackground raylib.RAYWHITE
for y := 0; y < BOARD_HEIGHT; y++ {
for x := 0; x < BOARD_WIDTH; x++ {
raylib.drawRectangle c.Int(x*BLOCK_SIZE), c.Int(y*BLOCK_SIZE), c.Int(BLOCK_SIZE-1), c.Int(BLOCK_SIZE-1), board[y][x]
}
}
for i := 0; i < MAX_BLOCKS; i++ {
raylib.drawRectangle c.Int((curPos.X+curShape.Blocks[i].X)*BLOCK_SIZE), c.Int((curPos.Y+curShape.Blocks[i].Y)*BLOCK_SIZE),
BLOCK_SIZE-1, BLOCK_SIZE-1, curShape.Color
}
c.sprintf scoreText, c"Score:%d", score
raylib.drawText scoreText, 10, 10, 20, raylib.BLACK
raylib.endDrawing
}
for !raylib.windowShouldClose {
raylib.beginDrawing
raylib.clearBackground raylib.RAYWHITE
raylib.drawText c"Game Over", SCREENWIDTH/2-50, SCREENHEIGHT/2-10, 20, raylib.RED
raylib.drawText scoreText, SCREENWIDTH/2-50, SCREENHEIGHT/2+10, 20, raylib.BLACK
raylib.endDrawing
}