-- Windon't -- enhanced window API by LDDestroier -- intended for general use within all me new programs -- -- Unique features: -- + Transparency within windows -- + Built-in window layering -- stores all local values to make drag-and-dropping into other programs less conflict-prone local lval = { to_blit = {}, to_colors = {}, expect = function(value, default, valueType) if value == nil or (valueType and type(value) ~= valueType) then return default else return value end end, getTime = function() return 24 * os.day() + os.time() end, -- check if space on screenBuffer is transparent check = function(buffer, x, y, blitLayer) if buffer[blitLayer or 1][y] then if blitLayer then return (buffer[blitLayer][y][x] and buffer[blitLayer][y][x] ~= "-") else if (not buffer[2][y][x] or buffer[2][y][x] == "-") and (not buffer[3][y][x] or buffer[3][y][x] == "-") then return false elseif (not buffer[3][y][x] or buffer[3][y][x] == "-") and buffer[1][y][x] == " " then return false else return true end end end end } local table_insert = table.insert local math_floor = math.floor for i = 1, 16 do lval.to_blit[2 ^ (i - 1)] = ("0123456789abcdef"):sub(i, i) lval.to_colors[("0123456789abcdef"):sub(i, i)] = 2 ^ (i - 1) end lval.to_blit[0], lval.to_colors["-"] = "-", 0 local windont = { doClearScreen = false, -- if true, will clear the screen during render default = { baseTerm = term.current(), -- default base terminal for all windows textColor = "0", -- default text color (what " " corresponds to in term.blit's second argument) backColor = "f", -- default background color (what " " corresponds to in term.blit's third argument) blink = true, visible = true, alwaysRender = true, -- if true, new windows will always render if they are written to }, info = { BLIT_CALLS = 0, -- amount of term.blit calls during the last render LAST_RENDER_TIME = 0, -- last time in which render was called LAST_RENDER_AMOUNT = 0, -- amount of windows drawn during last render LAST_RENDER_WINDOWS = {}, -- table of the last window objects that were rendered } } -- draws one or more windon't objects -- should not draw over any terminal space that isn't occupied by a window windont.render = function(onlyX1, onlyX2, onlyY, ...) local windows = {...} local bT local check = lval.check local screenBuffer = {{}, {}, {}} local scr_x, scr_y local blitList = {} -- list of blit commands per line local c = 1 -- current blitList entry if type(onlyY) == "table" then table_insert(windows, 1, onlyY) onlyY = nil end if type(onlyX2) == "table" then table_insert(windows, 1, onlyX2) onlyX2 = nil end if type(onlyX1) == "table" then table_insert(windows, 1, onlyX1) onlyX1 = nil end local cTime = lval.getTime() local AMNT_OF_BLITS = 0 -- how many blit calls are there? local cx, cy -- each window's absolute X and Y local char_cx, text_cx, back_cx -- each window's transformed absolute X's in table form local char_cy, text_cy, back_cy -- each window's transformed absolute X's in table form local buffer -- each window's buffer local newChar, newText, newBack -- if the transformation function declares a new dot, this is it local oriChar, oriText, oriBack local baseTerms = {} for i = 1, #windows do baseTerms[windows[i].meta.baseTerm] = baseTerms[windows[i].meta.baseTerm] or {} baseTerms[windows[i].meta.baseTerm][i] = true end for bT, bT_list in pairs(baseTerms) do if bT == output then bT = output.meta.baseTerm end scr_x, scr_y = bT.getSize() -- try entire buffer transformations for i = #windows, 1, -1 do if bT_list[i] then if windows[i].meta.metaTransformation then -- metaTransformation functions needn't return a value windows[i].meta.metaTransformation(windows[i].meta) end end end for y = onlyY or 1, onlyY or scr_y do screenBuffer[1][y] = {} screenBuffer[2][y] = {} screenBuffer[3][y] = {} blitList = {} c = 1 for x = onlyX1 or 1, math.min(scr_x, onlyX2 or scr_x) do for i = #windows, 1, -1 do if bT_list[i] then newChar, newText, newBack = nil if windows[i].meta.visible then buffer = windows[i].meta.buffer cx = 1 + x + -windows[i].meta.x cy = 1 + y + -windows[i].meta.y char_cx, text_cx, back_cx = cx, cx, cx char_cy, text_cy, back_cy = cy, cy, cy oriChar = (buffer[1][cy] or {})[cx] oriText = (buffer[2][cy] or {})[cx] oriBack = (buffer[3][cy] or {})[cx] -- try char transformation if windows[i].meta.charTransformation then char_cx, char_cy, newChar = windows[i].meta.charTransformation(cx, cy, {oriChar, oriText, oriBack}, windows[i].meta) if char_cx ~= math_floor(char_cx) or char_cy ~= math_floor(char_cy) then newChar = " " end char_cx = math_floor(char_cx or cx) char_cy = math_floor(char_cy or cy) end -- try text transformation if windows[i].meta.textTransformation then text_cx, text_cy, newText = windows[i].meta.textTransformation(cx, cy, {oriChar, oriText, oriBack}, windows[i].meta) text_cx = math_floor(text_cx or cx) text_cy = math_floor(text_cy or cy) end -- try back transformation if windows[i].meta.backTransformation then back_cx, back_cy, newBack = windows[i].meta.backTransformation(cx, cy, {oriChar, oriText, oriBack}, windows[i].meta) back_cx = math_floor(back_cx or cx) back_cy = math_floor(back_cy or cy) end if check(buffer, char_cx, char_cy) or check(buffer, text_cx, text_cy) or check(buffer, back_cx, back_cy) then screenBuffer[1][y][x] = newChar or check(buffer, char_cx, char_cy ) and (buffer[1][char_cy][char_cx]) or screenBuffer[1][y][x] screenBuffer[2][y][x] = newText or check(buffer, text_cx, text_cy, 2) and (buffer[2][text_cy][text_cx]) or screenBuffer[3][y][x] screenBuffer[3][y][x] = newBack or check(buffer, back_cx, back_cy, 3) and (buffer[3][back_cy][back_cx]) or screenBuffer[3][y][x] end end end end if windont.doClearScreen then screenBuffer[1][y][x] = screenBuffer[1][y][x] or " " end screenBuffer[2][y][x] = screenBuffer[2][y][x] or windont.default.backColor -- intentionally not the default text color screenBuffer[3][y][x] = screenBuffer[3][y][x] or windont.default.backColor if check(screenBuffer, x, y) then if check(screenBuffer, -1 + x, y) then blitList[c][1] = blitList[c][1] .. screenBuffer[1][y][x] blitList[c][2] = blitList[c][2] .. screenBuffer[2][y][x] blitList[c][3] = blitList[c][3] .. screenBuffer[3][y][x] else c = x blitList[c] = { screenBuffer[1][y][x], screenBuffer[2][y][x], screenBuffer[3][y][x] } end end end for k,v in pairs(blitList) do bT.setCursorPos(k, y) bT.blit(v[1], v[2], v[3]) AMNT_OF_BLITS = 1 + AMNT_OF_BLITS end end end windont.info.LAST_RENDER_AMOUNT = #windows windont.info.BLIT_CALLS = AMNT_OF_BLITS windont.info.LAST_RENDER_WINDOWS = windows windont.info.LAST_RENDER_TIME = cTime windont.info.LAST_RENDER_DURATION = lval.getTime() + -cTime end -- creates a new windon't object that can be manipulated the same as a regular window windont.newWindow = function( x, y, width, height, misc ) -- check argument types assert(type(x) == "number", "argument #1 must be number, got " .. type(x)) assert(type(y) == "number", "argument #2 must be number, got " .. type(y)) assert(type(width) == "number", "argument #3 must be number, got " .. type(width)) assert(type(height) == "number", "argument #4 must be number, got " .. type(height)) -- check argument validity assert(x > 0, "x position must be above zero") assert(y > 0, "y position must be above zero") assert(width > 0, "width must be above zero") assert(height > 0, "height must be above zero") local output = {} misc = misc or {} local meta = { x = lval.expect(x, 1), -- x position of the window y = lval.expect(y, 1), -- y position of the window width = width, -- width of the buffer height = height, -- height of the buffer buffer = lval.expect(misc.buffer, {}, "table"), -- stores contents of terminal in buffer[1][y][x] format renderBuddies = lval.expect(misc.renderBuddies, {}, "table"), -- renders any other window objects stored here after rendering here baseTerm = lval.expect(misc.baseTerm, windont.default.baseTerm, "table"), -- base terminal for which this window draws on isColor = lval.expect(misc.isColor, term.isColor(), "boolean"), -- if true, then it's an advanced computer charTransformation = lval.expect(misc.charTransformation, nil, "function"), -- function that transforms the characters of the window textTransformation = lval.expect(misc.textTransformation, nil, "function"), -- function that transforms the text colors of the window backTransformation = lval.expect(misc.backTransformation, nil, "function"), -- function that transforms the BG colors of the window metaTransformation = lval.expect(misc.miscTransformation, nil, "function"), -- function that transforms the whole output.meta function cursorX = lval.expect(misc.cursorX, 1), cursorY = lval.expect(misc.cursorY, 1), textColor = lval.expect(misc.textColor, windont.default.textColor, "string"), -- current text color backColor = lval.expect(misc.backColor, windont.default.backColor, "string"), -- current background color blink = lval.expect(misc.blink, windont.default.blink, "boolean"), -- cursor blink alwaysRender = lval.expect(misc.alwaysRender, windont.default.alwaysRender, "boolean"), -- render after every terminal operation visible = lval.expect(misc.visible, windont.default.visible, "boolean"), -- if false, don't render ever -- make a new buffer (optionally uses an existing buffer as a reference) newBuffer = function(width, height, char, text, back, drawAtop) local output = drawAtop or {{}, {}, {}} for y = 1, height do output[1][y] = output[1][y] or {} output[2][y] = output[2][y] or {} output[3][y] = output[3][y] or {} for x = 1, width do output[1][y][x] = output[1][y][x] or (char or " ") output[2][y][x] = output[2][y][x] or (text or "0") output[3][y][x] = output[3][y][x] or (back or "f") end end return output end } bT = meta.baseTerm -- initialize the buffer meta.buffer = meta.newBuffer(meta.width, meta.height, " ", meta.textColor, meta.backColor) output.meta = meta output.write = function(text) assert(type(text) == "string" or type(text) == "number", "expected string, got " .. type(text)) local initX = meta.cursorX for i = 1, #tostring(text) do if meta.cursorX >= 1 and meta.cursorX <= meta.width and meta.cursorY >= 1 and meta.cursorY <= meta.height then if not meta.buffer[1] then error("what the fuck happened") end meta.buffer[1][meta.cursorY][meta.cursorX] = tostring(text):sub(i,i) meta.buffer[2][meta.cursorY][meta.cursorX] = meta.textColor meta.buffer[3][meta.cursorY][meta.cursorX] = meta.backColor end meta.cursorX = meta.cursorX + 1 end if meta.alwaysRender then output.redraw( -1 + meta.x + initX, -1 + meta.x + meta.cursorX, -1 + meta.y + meta.cursorY ) end end output.blit = function(char, text, back) assert(type(char) == "string" and type(text) == "string" and type(back) == "string", "all arguments must be strings") assert(#char == #text and #text == #back, "arguments must be same length") local initX = meta.cursorX for i = 1, #char do if meta.cursorX >= 1 and meta.cursorX <= meta.width and meta.cursorY >= 1 and meta.cursorY <= meta.height then meta.buffer[1][meta.cursorY][meta.cursorX] = char:sub(i,i) meta.buffer[2][meta.cursorY][meta.cursorX] = text:sub(i,i) == " " and windont.default.textColor or text:sub(i,i) meta.buffer[3][meta.cursorY][meta.cursorX] = back:sub(i,i) == " " and windont.default.backColor or back:sub(i,i) meta.cursorX = meta.cursorX + 1 end end if meta.alwaysRender then output.redraw( -1 + meta.x + initX, -1 + meta.x + meta.cursorX, -1 + meta.y + meta.cursorY ) end end output.setCursorPos = function(x, y) assert(type(x) == "number", "argument #1 must be number, got " .. type(x)) assert(type(y) == "number", "argument #2 must be number, got " .. type(y)) meta.cursorX, meta.cursorY = math.floor(x), math.floor(y) if meta.alwaysRender then if bT == output then bT = output.meta.baseTerm end bT.setCursorPos( -1 + meta.x + meta.cursorX, -1 + meta.y + meta.cursorY ) end end output.getCursorPos = function() return meta.cursorX, meta.cursorY end output.setTextColor = function(color) if lval.to_blit[color] then meta.textColor = lval.to_blit[color] else error("Invalid color (got " .. color .. ")") end end output.setTextColour = output.setTextColor output.setBackgroundColor = function(color) if lval.to_blit[color] then meta.backColor = lval.to_blit[color] else error("Invalid color (got " .. color .. ")") end end output.setBackgroundColour = output.setBackgroundColor output.getTextColor = function() return lval.to_colors[meta.textColor] end output.getTextColour = output.getTextColor output.getBackgroundColor = function() return lval.to_colors[meta.backColor] end output.getBackgroundColour = output.getBackgroundColor output.setVisible = function(visible) assert(type(visible) == "number", "bad argument #1 (expected boolean, got " .. type(visible) .. ")") meta.visible = visible and true or false end output.clear = function() meta.buffer = meta.newBuffer(meta.width, meta.height, " ", meta.textColor, meta.backColor) if meta.alwaysRender then output.redraw() end end output.clearLine = function() meta.buffer[1][meta.cursorY] = nil meta.buffer[2][meta.cursorY] = nil meta.buffer[3][meta.cursorY] = nil meta.buffer = meta.newBuffer(meta.width, meta.height, " ", meta.textColor, meta.backColor, meta.buffer) if meta.alwaysRender then bT.setCursorPos(meta.x, -1 + meta.y + meta.cursorY) bT.blit( (" "):rep(meta.width), (meta.textColor):rep(meta.width), (meta.backColor):rep(meta.width) ) end end output.getLine = function(y) assert(type(y) == "number", "bad argument #1 (expected number, got " .. type(y) .. ")") assert(meta.buffer[1][y], "Line is out of range.") return table.concat(meta.buffer[1][y]), table.concat(meta.buffer[2][y]), table.concat(meta.buffer[3][y]) end output.scroll = function(amplitude) if math.abs(amplitude) < meta.height then -- minor optimization local blank = {{}, {}, {}} for x = 1, meta.width do blank[1][x] = " " blank[2][x] = meta.textColor blank[3][x] = meta.backColor end for y = 1, meta.height do meta.buffer[1][y] = meta.buffer[1][y + amplitude] or blank[1] meta.buffer[2][y] = meta.buffer[2][y + amplitude] or blank[2] meta.buffer[3][y] = meta.buffer[3][y + amplitude] or blank[3] end else meta.buffer = meta.newBuffer(meta.width, meta.height, " ", meta.textColor, meta.backColor) end if meta.alwaysRender then if math_floor(amplitude) ~= 0 then output.redraw() end end end output.getSize = function() return width, height end output.isColor = function() return meta.isColor end output.isColour = output.isColor output.reposition = function(x, y, width, height) assert(type(x) == "number", "bad argument #1 (expected number, got " .. type(x) .. ")") assert(type(y) == "number", "bad argument #2 (expected number, got " .. type(y) .. ")") meta.x = math_floor(x) meta.y = math_floor(y) if width then assert(type(width) == "number", "bad argument #3 (expected number, got " .. type(width) .. ")") assert(type(height) == "number", "bad argument #4 (expected number, got " .. type(height) .. ")") meta.width = width meta.height = height meta.buffer = meta.newBuffer(meta.width, meta.height, " ", meta.textColor, meta.backColor, meta.buffer) end if meta.alwaysRender then output.redraw() end end output.restoreCursor = function() bT.setCursorPos( math.max(0, -1 + meta.x + meta.cursorX), math.max(0, -1 + meta.y + meta.cursorY) ) bT.setCursorBlink(meta.blink) end output.getPosition = function() return meta.x, meta.y end output.setCursorBlink = function(blink) meta.blink = blink and true or false end output.getCursorBlink = function(blink) return meta.blink end output.setPaletteColor = bT.setPaletteColor output.setPaletteColour = bT.setPaletteColour output.getPaletteColor = bT.getPaletteColor output.getPaletteColour = bT.getPaletteColour output.redraw = function(x1, x2, y) if #meta.renderBuddies > 0 then windont.render(x1, x2, y, output, table.unpack(meta.renderBuddies)) else windont.render(x1, x2, y, output) end output.restoreCursor() end if meta.alwaysRender then output.redraw() end return output end return windont