pico8-0hh1/board.lua

local Board = {}
function Board.new()
	local debug = false

	local width = 6
	local tile_width = 10
	local padding = 1
	local tiles = {}
	local locked = {} -- list of indexes

	local reset = function()
		tiles = {}
		for i = 1, width * width do
			tiles[i] = 0
		end
		locked = {}
	end

	reset()

	return {
		reset = reset,

		get_tile = function(self, idx)
			return tiles[idx]
		end,

		-- returns a COPY of the tiles array
		get_tiles_copy = function(self)
			return copy(tiles)
		end,

		-- overwrites the whole tiles array
		set_tiles = function(self, newtiles)
			assert(#newtiles == #tiles, "New tiles array must have a length of " .. #tiles)
			tiles = copy(newtiles)
		end,

		idx_xy = function(self, idx)
			return idx_xy(idx, width)
		end,

		xy_idx = function(self, x, y)
			return xy_idx(x, y, width)
		end,

		draw_coords = function(self, x, y)
			local margin = (128 - (tile_width + padding) * width) / 2- padding
			if not y then x, y = self:idx_xy(x) end
			return margin + (x-1)*tile_width + (x-1)*padding,
						 margin + (y-1)*tile_width + (y-1)*padding
		end,

		get_size = function(self)
			return width
		end,

		get_tile_width = function(self)
			return tile_width
		end,

		fill = function(self, idx, color, invert)
			if idx > width*width then return end
			if invert then
				color = color == YELLOW and BLUE or YELLOW
			end
			tiles[idx] = color
		end,

		try_flip_tile = function(self, id)
			if locked[id] then return end
			if tiles[id] == 0 then
				tiles[id] = YELLOW
			elseif tiles[id] == YELLOW then
				tiles[id] = BLUE
			else tiles[id] = 0
			end
		end,

		get_rows = function(self)
			local ret = {}
			for i = 1, width do
				add(ret, slice(tiles, ((i - 1) * width) + 1, i * width))
			end
			return ret
		end,

		get_cols = function(self)
			local ret = {}
			local rows = self.get_rows(self)
			for i = 1, width do
				add(ret, map(rows, function(v) return v[i] end))
			end
			return ret
		end,

		is_complete = function(self)
			return count(tiles, 0) == 0
		end,

		is_valid = function(self)
			return #self:get_issues() == 0
		end,

		-- returns a list of issues of the board's current state
		get_issues = function(self, details)
			local rows = self:get_rows()
			local issues = {}
			for y,row in ipairs(rows) do
				local filled = count(row, 0) == 0
				-- check count
				if filled and count(row, BLUE) ~= count(row, YELLOW) then
					add(issues, {"row", "count", row, y})
					if (debug) printh("uneven count on row "..y)
					if (not details) return issues
				end
				-- check identical lines
				for k,other in ipairs(rows) do
					if filled and equal(other, row) and other ~= row then
						add(issues, {"row", "identical", row, y, k})
						if (debug) printh("equal rows "..k)
						if (not details) return issues
					end
				end
				-- check triples
				if self:count_consecutives(row) > 2 then
					add(issues, {"row", "triples", row, y})
					if (debug) printh("triples")
					if (not details) return issues
				end
			end

			local cols = self:get_cols()
			for x,col in ipairs(cols) do
				local filled = count(col, 0) == 0

				-- check count
				if filled and count(col, BLUE) ~= count(col, YELLOW) then
					add(issues, {"col", "count", col, x})
					if (debug) printh("uneven count")
					if (not details) return issues
				end
				-- check identical lines
				for k,other in ipairs(cols) do
					if filled and equal(other, col) and other ~= col then
						add(issues, {"col", "identical", col, x, k})
						if (debug) printh("equal cols")
						if (not details) return issues
					end
				end
				-- check triples
				if self:count_consecutives(col) > 2 then
					add(issues, {"col", "triples", col, x})
					if (debug) printh("triples")
					if (not details) return issues
				end
			end
			return issues
		end,

		count_consecutives = function(self, line)
			local top = 0
			local current = 0
			local last = 0
			for v in all(line) do
				if v ~= last then
					top = max(current, top)
					current = 1
					last = v
				elseif v~= 0 then
					current += 1
				end
			end
			return max(current, top)
		end,

		--
		-- Returns the index of a random zero tile
		--
		get_random_zero = function(self)
			assert(count(tiles, 0) > 0, "No zero left")
			local zeroes = filter(tiles, function(v) return v == 0 end, true)
			local z = {}
			for k,v in pairs(zeroes) do
				add(z, k)
			end
			return rnd(z)
		end,

		--
		-- Returns the index of a random non-zero tile
		--
		get_random_non_zero = function(self)
			assert(count(tiles, 0) < #tiles, "All zeroes")
			local numbers = filter(tiles, function(v) return v ~= 0 end, true)
			local z = {}
			for k,v in pairs(numbers) do
				add(z, k)
			end
			return rnd(z)
		end,

		tostring = function(self)
			local str = ''
			for v in all(tiles) do
				str ..= ", " .. v
			end
			return str
		end,

		-- Solves 1 step of the board
		-- Returns "valid" if it solved it without guessing
		-- Returns "invalid" if the board cannot be solved
		solve_step = function(self, random)
			local zeroes = count(tiles, 0)
			self:surround_doubles()
			self:split_triples()
			self:fill_lines()
			self:no_identical_lines()
			local changed = zeroes ~= count(tiles, 0)

			if not changed and random and not self:is_complete() then
				-- Set a random color
				local z = self:get_random_zero()
				self:fill(z, rnd({BLUE, YELLOW}))
				if (debug) printh("!!!!!!!!!!!!!!!!! RANDOM FILL AT " .. z)
				return "invalid"
			end
			return (changed or self:is_complete()) and "valid" or "invalid"
		end,

		surround_doubles = function(self)
			for idx,v in ipairs(tiles) do
				local x,y = self:idx_xy(idx)
				if v == 0 then
					local neighbors = {}
					-- 2 tiles on the left
					if x >= 3 then
						add(neighbors, {idx, idx-1, idx-2})
					end
					-- 2 tiles on the right
					if x <= width-2 then
						add(neighbors, {idx, idx+1, idx+2})
					end
					-- 2 tiles on top
					if y >= 3 then
						add(neighbors, {idx, idx-width, idx - width*2})
					end
					-- 2 tiles under
					if y <= width-2 then
						add(neighbors, {idx, idx+width, idx + width*2})
					end

					-- only keep pairs that are identical (and not 0)
					neighbors = filter(neighbors, function (o) return tiles[o[2]] == tiles[o[3]] and tiles[o[2]] ~= 0 end)

					-- do the surrounding
					for item in all(neighbors) do
						if item[1] then
							if (debug) printh("Surrounding at " .. item[1])
							self:fill(item[1], tiles[item[2]], true)
						end
					end
				end
			end
		end,

		split_triples = function(self)
			for idx, col in ipairs(tiles) do
				local x,y = self:idx_xy(idx)
				if col == 0 then

					if x > 1 and x < width then
						-- check horizontal
						local prev = tiles[idx-1]
						local next = tiles[idx+1]
						if prev ~= 0 and prev == next then
							if (debug) printh("Splitting at " .. idx)
							self:fill(idx, prev, true)
						end
					end

					if y>1 and y < width then
						-- check vertical
						local prev = tiles[idx-width]
						local next = tiles[idx+width]
						if prev ~= 0 and prev == next then
							if (debug) printh("Splitting at " .. idx)
							self:fill(idx, prev, true)
						end
					end
				end
			end
		end,

		fill_lines = function(self)
			local rows = self:get_rows()
			local cols = self:get_cols()

			-- rows
			for y,row in ipairs(rows) do
				local a = count(row, BLUE)
				local b = count(row, YELLOW)
				if a ~= b then
					if a == width/2 then self:fill_row(y, YELLOW) end
					if b == width/2 then self:fill_row(y, BLUE) end
				end
			end

			-- columns
			for x,col in ipairs(cols) do
				local a = count(col, BLUE)
				local b = count(col, YELLOW)
				if a ~= b then
					if a == width/2 then self:fill_col(x, YELLOW) end
					if b == width/2 then self:fill_col(x, BLUE) end
				end
			end
		end,

		fill_row = function(self, y, color)
			if (debug) printh("Filling line " .. y .. " in " .. (color == BLUE and "blue" or "yellow"))
			local idx = self:xy_idx(1, y)
			for i = idx, (idx+width-1) do
				if self:get_tile(i) == 0 then
					self:fill(i, color)
				end
			end
		end,

		fill_col = function(self, x, color)
			if (debug) printh("Filling column " .. x .. " in " .. (color == BLUE and "blue" or "yellow"))
			local idx = self:xy_idx(x, 1)
			for i = idx, #tiles, width do
				if self:get_tile(i) == 0 then
					self:fill(i, color)
				end
			end
		end,

		-- Finds "identical" lines, and fill the 2 remaining tiles with inverted colors
		no_identical_lines = function(self)
			-- columns
			local cols = self:get_cols()
			for x,col in ipairs(cols) do
				-- if the line has the corrent number of colors,
				-- but missing 2 tiles
				if count(col, 0) == 2 and count(col, BLUE) == count(col, YELLOW) then
			    local y1, y2 = unpack(find(col, 0)) -- get the position of the 2 missing tiles
					-- create both both solutions
					local ab = copy(col) ab[y1] = BLUE ab[y2] = YELLOW
					local ba = copy(col) ba[y1] = YELLOW ba[y2] = BLUE
					-- Check if a dupe exists
					for x2,col in ipairs(cols) do
						if equal(col, ab) then
							self:fill(self:xy_idx(x,y1), YELLOW)
							self:fill(self:xy_idx(x,y2), BLUE)
							goto continue
						elseif equal(col, ba) then
							self:fill(self:xy_idx(x,y1), BLUE)
							self:fill(self:xy_idx(x,y2), YELLOW)
							goto continue
						end
					end
				end
				::continue::
			end

			-- rows
			local rows = self:get_rows()
			for y,row in ipairs(rows) do
				if count(row, 0) == 2 and count(row, BLUE) == count(row, YELLOW) then
			    local x1, x2 = unpack(find(row, 0))
					local ab = copy(row) ab[x1] = BLUE ab[x2] = YELLOW
					local ba = copy(row) ba[x1] = YELLOW ba[x2] = BLUE
					-- Check if a dupe exists
					for y2,row in ipairs(rows) do
						if equal(row, ab) then
							self:fill(self:xy_idx(x1,y), YELLOW)
							self:fill(self:xy_idx(x2,y), BLUE)
							goto continue
						elseif equal(row, ba) then
							self:fill(self:xy_idx(x1,y), BLUE)
							self:fill(self:xy_idx(x2,y), YELLOW)
							goto continue
						end
					end
				end
				::continue::
			end
		end,

		lock_tiles = function(self)
			locked = {}
			for k,v in ipairs(tiles) do
				if v > 0 then locked[k] = true end
			end
		end,

		is_locked = function(self, idx)
			return locked[idx]
		end,

		draw_bg = function(self)
			local w = tile_width
			fillp(▒)
			for k,v in ipairs(tiles) do
				local x,y = self:draw_coords(k)
				rectfill2(x, y, w, w, 1)
			end
		end,

		draw = function(self)
			self:draw_bg()
			local w = tile_width
			for k,v in ipairs(tiles) do
				self:draw_tile(k)
			end
		end,

		draw_tile = function(self, idx)
			local w = tile_width
			local v = tiles[idx]
			if v > 0 then
				local x,y = self:draw_coords(idx)
				local color = v == BLUE and 12 or 8
				if color == 1 then fillp(▒) else fillp(█) end
				if self:is_locked(idx) then
					rectfill2(x, y, w, w, color)
					line(x, y+w-1, x+w-1, y+w-1, v == BLUE and 13 or 2)
					line(x+w-1, y, x+w-1, y+w-1, v == BLUE and 13 or 2)
				else
					roundedrect(x, y, w, w, color)
				end
			end
		end,
	}
end