cambridge/tetris/components/grid.lua

468 lines
12 KiB
Lua

local Object = require 'libs.classic'
local Grid = Object:extend()
local empty = { skin = "", colour = "" }
local oob = { skin = "", colour = "" }
local block = { skin = "2tie", colour = "A" }
function Grid:new()
self.grid = {}
self.grid_age = {}
for y = 1, 24 do
self.grid[y] = {}
self.grid_age[y] = {}
for x = 1, 10 do
self.grid[y][x] = empty
self.grid_age[y][x] = 0
end
end
end
function Grid:clear()
for y = 1, 24 do
for x = 1, 10 do
self.grid[y][x] = empty
self.grid_age[y][x] = 0
end
end
end
function Grid:getCell(x, y)
if x < 1 or x > 10 or y > 24 then return oob
elseif y < 1 then return empty
else return self.grid[y][x]
end
end
function Grid:isOccupied(x, y)
return self:getCell(x+1, y+1) ~= empty
end
function Grid:isRowFull(row)
for index, square in pairs(self.grid[row]) do
if square == empty then return false end
end
return true
end
function Grid:canPlacePiece(piece)
if piece.big then
return self:canPlaceBigPiece(piece)
end
local offsets = piece:getBlockOffsets()
for index, offset in pairs(offsets) do
local x = piece.position.x + offset.x
local y = piece.position.y + offset.y
if self:isOccupied(x, y) then
return false
end
end
return true
end
function Grid:canPlaceBigPiece(piece)
local offsets = piece:getBlockOffsets()
for index, offset in pairs(offsets) do
local x = piece.position.x + offset.x
local y = piece.position.y + offset.y
if (
self:isOccupied(x * 2 + 0, y * 2 + 0)
or self:isOccupied(x * 2 + 1, y * 2 + 0)
or self:isOccupied(x * 2 + 0, y * 2 + 1)
or self:isOccupied(x * 2 + 1, y * 2 + 1)
) then
return false
end
end
return true
end
function Grid:canPlacePieceInVisibleGrid(piece)
if piece.big then
return self:canPlaceBigPiece(piece)
-- forget canPlaceBigPieceInVisibleGrid for now
end
local offsets = piece:getBlockOffsets()
for index, offset in pairs(offsets) do
local x = piece.position.x + offset.x
local y = piece.position.y + offset.y
if y < 4 or self:isOccupied(x, y) ~= empty then
return false
end
end
return true
end
function Grid:getClearedRowCount()
local count = 0
for row = 1, 24 do
if self:isRowFull(row) then
count = count + 1
end
end
return count
end
function Grid:markClearedRows()
for row = 1, 24 do
if self:isRowFull(row) then
for x = 1, 10 do
self.grid[row][x] = {
skin = self.grid[row][x].skin,
colour = "X"
}
self.grid_age[row][x] = 0
end
end
end
return true
end
function Grid:clearClearedRows()
for row = 1, 24 do
if self:isRowFull(row) then
for above_row = row, 2, -1 do
self.grid[above_row] = self.grid[above_row - 1]
self.grid_age[above_row] = self.grid_age[above_row - 1]
end
self.grid[1] = {empty, empty, empty, empty, empty, empty, empty, empty, empty, empty}
self.grid_age[1] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
end
end
return true
end
function Grid:copyBottomRow()
for row = 1, 23 do
self.grid[row] = self.grid[row+1]
self.grid_age[row] = self.grid_age[row+1]
end
self.grid[24] = {empty, empty, empty, empty, empty, empty, empty, empty, empty, empty}
self.grid_age[24] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
for col = 1, 10 do
self.grid[24][col] = (self.grid[23][col] == empty) and empty or block
end
return true
end
function Grid:garbageRise(row_vals)
for row = 1, 23 do
self.grid[row] = self.grid[row+1]
self.grid_age[row] = self.grid_age[row+1]
end
self.grid[24] = {empty, empty, empty, empty, empty, empty, empty, empty, empty, empty}
self.grid_age[24] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0}
for col = 1, 10 do
self.grid[24][col] = (row_vals[col] == "e") and empty or block
end
end
function Grid:applyFourWide()
for row = 1, 24 do
local x = self.grid[row]
x[1] = x[1]~=block and block or x[1]
x[2] = x[2]~=block and block or x[2]
x[3] = x[3]~=block and block or x[3]
x[8] = x[8]~=block and block or x[8]
x[9] = x[9]~=block and block or x[9]
x[10] = x[10]~=block and block or x[10]
end
end
function Grid:applyCeiling(lines)
for row = 1, lines do
for col = 1, 9 do
self.grid[row][col] = block
end
end
end
function Grid:clearSpecificRow(row)
for col = 1, 10 do
self.grid[row][col] = empty
end
end
function Grid:applyPiece(piece)
if piece.big then
self:applyBigPiece(piece)
return
end
offsets = piece:getBlockOffsets()
for index, offset in pairs(offsets) do
x = piece.position.x + offset.x
y = piece.position.y + offset.y
if y + 1 > 0 and y < 24 then
self.grid[y+1][x+1] = {
skin = piece.skin,
colour = piece.colour
}
end
end
end
function Grid:applyBigPiece(piece)
offsets = piece:getBlockOffsets()
for index, offset in pairs(offsets) do
x = piece.position.x + offset.x
y = piece.position.y + offset.y
for a = 1, 2 do
for b = 1, 2 do
if y*2+a > 0 then
self.grid[y*2+a][x*2+b] = {
skin = piece.skin,
colour = piece.colour
}
end
end
end
end
end
function Grid:checkForBravo(cleared_row_count)
for i = 0, 23 - cleared_row_count do
for j = 0, 9 do
if self:isOccupied(j, i) then return false end
end
end
return true
end
function Grid:checkStackHeight()
for i = 0, 23 do
for j = 0, 9 do
if self:isOccupied(j, i) then return 24 - i end
end
end
return 0
end
function Grid:checkSecretGrade()
local sgrade = 0
for i=23,5,-1 do
local validLine = true
local emptyCell = 0
if i > 13 then
emptyCell = 23-i
end
if i <= 13 then
emptyCell = i-5
end
for j=0,9 do
if (not self:isOccupied(j,i) and j ~= emptyCell) or (j == emptyCell and self:isOccupied(j,i)) then
validLine = false
end
end
if not self:isOccupied(emptyCell,i-1) then
validLine = false
end
if(validLine) then
sgrade = sgrade + 1
else
return sgrade
end
end
--[[
if(sgrade == 0) then return ""
elseif(sgrade < 10) then return 10-sgrade
elseif(sgrade < 19) then return "S"..(sgrade-9) end
return "GM"
--]]
return sgrade
end
function Grid:hasGemBlocks()
for y = 1, 24 do
for x = 1, 10 do
if self.grid[y][x].skin == "gem" then
return true
end
end
end
return false
end
function Grid:mirror()
local new_grid = {}
for y = 1, 24 do
new_grid[y] = {}
for x = 1, 10 do
new_grid[y][x] = empty
end
end
for y = 1, 24 do
for x = 1, 10 do
new_grid[y][x] = self.grid[y][11 - x]
end
end
self.grid = new_grid
end
function Grid:applyMap(map)
for y, row in pairs(map) do
for x, block in pairs(row) do
self.grid_age[y][x] = 0
self.grid[y][x] = block
end
end
end
function Grid:update()
for y = 1, 24 do
for x = 1, 10 do
if self.grid[y][x] ~= empty then
self.grid_age[y][x] = self.grid_age[y][x] + 1
end
end
end
end
function Grid:draw()
for y = 5, 24 do
for x = 1, 10 do
if self.grid[y][x] ~= empty then
if self.grid_age[y][x] < 2 then
love.graphics.setColor(1, 1, 1, 1)
love.graphics.draw(blocks[self.grid[y][x].skin]["F"], 48+x*16, y*16)
else
if self.grid[y][x].skin == "bone" then
love.graphics.setColor(1, 1, 1, 1)
elseif self.grid[y][x].colour == "X" then
love.graphics.setColor(0.5, 0.5, 0.5, 1 - self.grid_age[y][x] / 15)
else
love.graphics.setColor(0.5, 0.5, 0.5, 1)
end
love.graphics.draw(blocks[self.grid[y][x].skin][self.grid[y][x].colour], 48+x*16, y*16)
end
if self.grid[y][x].skin ~= "bone" and self.grid[y][x].colour ~= "X" then
love.graphics.setColor(0.8, 0.8, 0.8, 1)
love.graphics.setLineWidth(1)
if y > 1 and self.grid[y-1][x] == empty or self.grid[y-1][x].colour == "X" then
love.graphics.line(48.0+x*16, -0.5+y*16, 64.0+x*16, -0.5+y*16)
end
if y < 24 and self.grid[y+1][x] == empty or
(y + 1 > 24 or self.grid[y+1][x].colour == "X") then
love.graphics.line(48.0+x*16, 16.5+y*16, 64.0+x*16, 16.5+y*16)
end
if x > 1 and self.grid[y][x-1] == empty then
love.graphics.line(47.5+x*16, -0.0+y*16, 47.5+x*16, 16.0+y*16)
end
if x < 10 and self.grid[y][x+1] == empty then
love.graphics.line(64.5+x*16, -0.0+y*16, 64.5+x*16, 16.0+y*16)
end
end
end
end
end
end
function Grid:drawOutline()
for y = 5, 24 do
for x = 1, 10 do
if self.grid[y][x] ~= empty and self.grid[y][x].colour ~= "X" then
love.graphics.setColor(0.8, 0.8, 0.8, 1)
love.graphics.setLineWidth(1)
if y > 1 and self.grid[y-1][x] == empty or self.grid[y-1][x].colour == "X" then
love.graphics.line(48.0+x*16, -0.5+y*16, 64.0+x*16, -0.5+y*16)
end
if y < 24 and self.grid[y+1][x] == empty or
(y + 1 > 24 or self.grid[y+1][x].colour == "X") then
love.graphics.line(48.0+x*16, 16.5+y*16, 64.0+x*16, 16.5+y*16)
end
if x > 1 and self.grid[y][x-1] == empty then
love.graphics.line(47.5+x*16, -0.0+y*16, 47.5+x*16, 16.0+y*16)
end
if x < 10 and self.grid[y][x+1] == empty then
love.graphics.line(64.5+x*16, -0.0+y*16, 64.5+x*16, 16.0+y*16)
end
end
end
end
end
function Grid:drawInvisible(opacity_function, garbage_opacity_function, lock_flash, brightness)
lock_flash = lock_flash == nil and true or lock_flash
brightness = brightness == nil and 0.5 or brightness
for y = 5, 24 do
for x = 1, 10 do
if self.grid[y][x] ~= empty then
if self.grid[y][x].colour == "X" then
opacity = 1 - self.grid_age[y][x] / 15
elseif garbage_opacity_function and self.grid[y][x].colour == "A" then
opacity = garbage_opacity_function(self.grid_age[y][x])
else
opacity = opacity_function(self.grid_age[y][x])
end
love.graphics.setColor(brightness, brightness, brightness, opacity)
love.graphics.draw(blocks[self.grid[y][x].skin][self.grid[y][x].colour], 48+x*16, y*16)
if lock_flash then
if opacity > 0 and self.grid[y][x].colour ~= "X" then
love.graphics.setColor(0.64, 0.64, 0.64)
love.graphics.setLineWidth(1)
if y > 1 and self.grid[y-1][x] == empty or self.grid[y-1][x].colour == "X" then
love.graphics.line(48.0+x*16, -0.5+y*16, 64.0+x*16, -0.5+y*16)
end
if y < 24 and self.grid[y+1][x] == empty or
(y + 1 > 24 or self.grid[y+1][x].colour == "X") then
love.graphics.line(48.0+x*16, 16.5+y*16, 64.0+x*16, 16.5+y*16)
end
if x > 1 and self.grid[y][x-1] == empty then
love.graphics.line(47.5+x*16, -0.0+y*16, 47.5+x*16, 16.0+y*16)
end
if x < 10 and self.grid[y][x+1] == empty then
love.graphics.line(64.5+x*16, -0.0+y*16, 64.5+x*16, 16.0+y*16)
end
end
end
end
end
end
end
function Grid:drawCustom(colour_function, gamestate)
--[[
colour_function: (game, block, x, y, age) -> (R, G, B, A, outlineA)
When called, calls the supplied function on every block passing the block itself as argument
as well as coordinates and the grid_age value of the same cell.
Should return a RGBA colour for the block, as well as the opacity of the stack outline (0 for no outline).
gamestate: the gamemode instance itself to pass in colour_function
]]
for y = 5, 24 do
for x = 1, 10 do
local block = self.grid[y][x]
if block ~= empty then
local R, G, B, A, outline = colour_function(gamestate, block, x, y, self.grid_age[y][x])
if self.grid[y][x].colour == "X" then
A = 1 - self.grid_age[y][x] / 15
end
love.graphics.setColor(R, G, B, A)
love.graphics.draw(blocks[self.grid[y][x].skin][self.grid[y][x].colour], 48+x*16, y*16)
if outline > 0 and self.grid[y][x].colour ~= "X" then
love.graphics.setColor(0.64, 0.64, 0.64, outline)
love.graphics.setLineWidth(1)
if y > 1 and self.grid[y-1][x] == empty or self.grid[y-1][x].colour == "X" then
love.graphics.line(48.0+x*16, -0.5+y*16, 64.0+x*16, -0.5+y*16)
end
if y < 24 and self.grid[y+1][x] == empty or
(y + 1 > 24 or self.grid[y+1][x].colour == "X") then
love.graphics.line(48.0+x*16, 16.5+y*16, 64.0+x*16, 16.5+y*16)
end
if x > 1 and self.grid[y][x-1] == empty then
love.graphics.line(47.5+x*16, -0.0+y*16, 47.5+x*16, 16.0+y*16)
end
if x < 10 and self.grid[y][x+1] == empty then
love.graphics.line(64.5+x*16, -0.0+y*16, 64.5+x*16, 16.0+y*16)
end
end
end
end
end
end
return Grid