cambridge/tetris/rulesets/unrefactored_rulesets/super302.lua
2019-05-23 00:35:11 -04:00

175 lines
4.9 KiB
Lua

Piece = require("tetris.components.piece")
local BONKERS = {}
BONKERS.name = "SUPER302"
BONKERS.hash = "Super302"
BONKERS.spawn_positions = {
I = { x=5, y=4 },
J = { x=4, y=5 },
L = { x=4, y=5 },
O = { x=5, y=5 },
S = { x=4, y=5 },
T = { x=4, y=5 },
Z = { x=4, y=5 },
}
BONKERS.block_offsets = {
I={
{ {x=0, y=0}, {x=-1, y=0}, {x=-2, y=0}, {x=1, y=0} },
{ {x=0, y=0}, {x=0, y=-1}, {x=0, y=1}, {x=0, y=2} },
{ {x=0, y=1}, {x=-1, y=1}, {x=-2, y=1}, {x=1, y=1} },
{ {x=-1, y=0}, {x=-1, y=-1}, {x=-1, y=1}, {x=-1, y=2} },
},
J={
{ {x=0, y=0}, {x=-1, y=0}, {x=1, y=0}, {x=-1, y=-1} },
{ {x=0, y=0}, {x=0, y=-1}, {x=0, y=1} , {x=1, y=-1} },
{ {x=0, y=0}, {x=1, y=0}, {x=-1, y=0}, {x=1, y=1} },
{ {x=0, y=0}, {x=0, y=1}, {x=0, y=-1}, {x=-1, y=1} },
},
L={
{ {x=0, y=0}, {x=-1, y=0}, {x=1, y=0}, {x=1, y=-1} },
{ {x=0, y=0}, {x=0, y=-1}, {x=0, y=1}, {x=1, y=1} },
{ {x=0, y=0}, {x=1, y=0}, {x=-1, y=0}, {x=-1, y=1} },
{ {x=0, y=0}, {x=0, y=1}, {x=0, y=-1}, {x=-1, y=-1} },
},
O={
{ {x=0, y=0}, {x=-1, y=0}, {x=-1, y=-1}, {x=0, y=-1} },
{ {x=0, y=0}, {x=-1, y=0}, {x=-1, y=-1}, {x=0, y=-1} },
{ {x=0, y=0}, {x=-1, y=0}, {x=-1, y=-1}, {x=0, y=-1} },
{ {x=0, y=0}, {x=-1, y=0}, {x=-1, y=-1}, {x=0, y=-1} },
},
S={
{ {x=1, y=-1}, {x=0, y=-1}, {x=0, y=0}, {x=-1, y=0} },
{ {x=1, y=1}, {x=1, y=0}, {x=0, y=0}, {x=0, y=-1} },
{ {x=-1, y=1}, {x=0, y=1}, {x=0, y=0}, {x=1, y=0} },
{ {x=-1, y=-1}, {x=-1, y=0}, {x=0, y=0}, {x=0, y=1} },
},
T={
{ {x=0, y=0}, {x=-1, y=0}, {x=1, y=0}, {x=0, y=-1} },
{ {x=0, y=0}, {x=0, y=-1}, {x=0, y=1}, {x=1, y=0} },
{ {x=0, y=0}, {x=1, y=0}, {x=-1, y=0}, {x=0, y=1} },
{ {x=0, y=0}, {x=0, y=1}, {x=0, y=-1}, {x=-1, y=0} },
},
Z={
{ {x=-1, y=-1}, {x=0, y=-1}, {x=0, y=0}, {x=1, y=0} },
{ {x=1, y=-1}, {x=1, y=0}, {x=0, y=0}, {x=0, y=1} },
{ {x=1, y=1}, {x=0, y=1}, {x=0, y=0}, {x=-1, y=0} },
{ {x=-1, y=1}, {x=-1, y=0}, {x=0, y=0}, {x=0, y=-1} },
}
}
-- Component functions.
local function rotatePiece(inputs, piece, grid, prev_inputs)
local new_inputs = {}
for input, value in pairs(inputs) do
if value and not prev_inputs[input] then
new_inputs[input] = true
end
end
local rot_dir = 0
if (new_inputs["rotate_left"] or new_inputs["rotate_left2"]) then
rot_dir = 3
elseif (new_inputs["rotate_right"] or new_inputs["rotate_right2"]) then
rot_dir = 1
elseif (new_inputs["rotate_180"]) then
rot_dir = 2
end
while rot_dir ~= 0 do
if piece.filled then break end
new_piece = piece:withRelativeRotation(rot_dir)
if (grid:canPlacePiece(new_piece)) and piece.shape ~= "O" then
piece:setRelativeRotation(rot_dir)
piece.lock_delay = 0 -- rotate reset
else
-- set the piece to occupy the whole grid
piece.filled = true
unfilled_block_offsets = {}
for y = 4, 23 do
for x = 0, 9 do
if not grid:isOccupied(x, y) then
table.insert(unfilled_block_offsets, {x=x, y=y})
end
end
end
piece.position = {x=0, y=0}
piece.getBlockOffsets = function(piece)
return unfilled_block_offsets
end
piece.isDropBlocked = function(piece)
return true
end
end
rot_dir = 0
end
-- prev_inputs becomes the previous inputs
for input, value in pairs(inputs) do
prev_inputs[input] = inputs[input]
end
end
local function movePiece(piece, grid, move)
if move == "left" then
if not piece:isMoveBlocked(grid, {x=-1, y=0}) then
piece.lock_delay = 0 -- move reset
end
piece:moveInGrid({x=-1, y=0}, 1, grid)
elseif move == "right" then
if not piece:isMoveBlocked(grid, {x=1, y=0}) then
piece.lock_delay = 0 -- move reset
end
piece:moveInGrid({x=1, y=0}, 1, grid)
end
end
local function dropPiece(inputs, piece, grid, gravity, drop_speed, drop_locked)
local y = piece.position.y
if inputs["down"] == true and drop_locked == false then
piece:addGravity(gravity + 1, grid):lockIfBottomed(grid)
elseif inputs["up"] == true then
if piece:isDropBlocked(grid) then
return
end
piece:dropToBottom(grid)
else
piece:addGravity(gravity, grid)
end
if piece.position.y ~= y then -- step reset
piece.lock_delay = 0
end
end
local function lockPiece(piece, grid, lock_delay)
if piece:isDropBlocked(grid) and piece.lock_delay >= lock_delay then
piece.locked = true
end
end
function BONKERS.initializePiece(inputs, data, grid, gravity, prev_inputs, move, lock_delay, drop_speed, drop_locked)
local piece = Piece(shape, 0, {
x = BONKERS.spawn_positions[shape].x,
y = BONKERS.spawn_positions[shape].y
}, BONKERS.block_offsets, 0, 0)
-- have to copy that object otherwise it gets referenced
rotatePiece(inputs, piece, grid, {})
dropPiece(inputs, piece, grid, gravity, drop_speed, drop_locked)
return piece
end
function BONKERS.processPiece(inputs, piece, grid, gravity, prev_inputs, move, lock_delay, drop_speed, drop_locked)
rotatePiece(inputs, piece, grid, prev_inputs)
movePiece(piece, grid, move)
dropPiece(inputs, piece, grid, gravity, drop_speed, drop_locked)
lockPiece(piece, grid, lock_delay)
end
return BONKERS