-- pretty.pretty -- Main module of the `pretty` library. -- TODO: Maybe move table formatting into its own file? --[=[ Thoughts on displaying tables in an intuitive way. Lua's table datastructure is likely to be the most consise data structure ever invented. (If not, please send me a link!) Lists, maps, objects, classes, proxies, etc. This obviously brings about it some difficulty when attempting to represent these tables. What do we want to highlight, and what do we choose to avoid? One notable issue is whether to show every key that a table answers to, or to just display those it contains. That is, do we think about `__index` and what it returns, or do we ignore `__index`? For cases where `__index` is a function, we cannot say anything about the keys that the table answers to. If `__index` is a table, we have a better idea, but then the output would be cluttered. 1. Native representation: Lua's native representation includes the type and address of the table. It allows for distinguishing between unique tables, but won't tell about the contents. 2. It continues: By representing tables as the pseudo-parsable `{...}`, it's clear we are talking about a table. We disregard the ability to distinguish between tables. 3. Special case for 2. If the table is empty, we could represent it as `{}`. But what if the table has a metatable with `__index` defined? We could continue to represent it as `{}`, but `{...}` would be more "honest". 4. Single-line: TODO 5. Multi-line: TODO 6. Format into columns: (like ls) TODO 7. Tabular: TODO 8. Special cases: (Array-tree, Table-Tree, Linked-List) TODO --]=] -------------------------------------------------------------------------------- -- Ensure loading library, if it exists, no matter where pretty.lua was loaded from. -- Load the library component local format_number, format_function, format_string, analyze_structure, TABLE_TYPE do local thispath = ... and select('1', ...):match('.+%.') or '' local function import (name, ignore_failure) local was_loaded, lib_or_error = pcall(require, thispath..name) if not was_loaded then if ignore_failure then return nil end error('[pretty]: Could not load vital library: '..name..'.lua:\n\t'..lib_or_error) end return lib_or_error end -- Load number and function formatting -- Will use a very simple number formatting, if number.lua is not available. -- Will use a very simple function formatting, if function.lua is not available. -- Will use a very simple string formatting, if string.lua is not available. format_number = import('number', true) or function (value, _, l) l[#l+1] = tostring(value) end format_function = import('function', true) or function (value, _, l) l[#l+1] = 'function (...) --[['..tostring(value):sub(11)..']] end' end format_string = import('pstring', true) or function (value, _, l) l[#l+1] = '[['..value..']]' end -- Load other stuff analyze_structure = import 'analyze_structure' TABLE_TYPE = import 'table_type' end -------------------------------------------------------------------------------- -- Constants local ERROR_UNKNOWN_TYPE = [[ [pretty]: Attempting to format unsupported value of type "%s". A native formatting of the value is: %s We are attempting to cover all Lua features, so please report this bug, so we can improve. ]] local MAX_WIDTH_FOR_SINGLE_LINE_TABLE = 38 local KEY_TYPE_SORT_ORDER = { ['number'] = 0, ['string'] = 1, ['boolean'] = 2, ['table'] = 3, ['userdata'] = 4, ['thread'] = 5, ['function'] = 6, } local VALUE_TYPE_SORT_ORDER = { ['nil'] = 0, ['boolean'] = 1, ['number'] = 2, ['string'] = 3, ['table'] = 4, ['userdata'] = 5, ['thread'] = 6, ['function'] = 7, } -------------------------------------------------------------------------------- -- Key-value-pair Util local function padnum(d) local dec, n = string.match(d, "(%.?)0*(.+)") return #dec > 0 and ("%.12f"):format(d) or ("%s%03d%s"):format(dec, #n, n) end local function alphanum_compare_strings (a, b) -- Compares two strings alphanumerically. assert(type(a) == 'string') assert(type(b) == 'string') local a_padded = a:gsub("%.?%d+", padnum)..("\0%3d"):format(#b) local b_padded = b:gsub("%.?%d+", padnum)..("\0%3d"):format(#a) local A_padded, B_padded = a_padded:upper(), b_padded:upper() if A_padded == B_padded then return a_padded < b_padded end return A_padded < B_padded end local function compare_key_value_pair (a, b) -- Function for comparing two key-value pairs, given as `{ key, value }`. -- Pretty complex due to our high standards for sorting. assert(type(a) == 'table') assert(type(b) == 'table') -- Get types local type_key_a, type_key_b = type(a[1]), type(b[1]) local type_value_a, type_value_b = type(a[2]), type(b[2]) -- Tons of compare if (1 == (type_key_a == 'number' and 1 or 0) + (type_key_b == 'number' and 1 or 0)) then return type_key_a == 'number' elseif (type_key_a == 'number' and type_key_b == 'number') then return a[1] < b[1] elseif (type_value_a ~= type_value_b) then return VALUE_TYPE_SORT_ORDER[type_value_a] < VALUE_TYPE_SORT_ORDER[type_value_b] elseif (type_key_a == 'string' and type_key_b == 'string') then return alphanum_compare_strings(a[1], b[1]) elseif (type_key_a ~= type_key_b) then return KEY_TYPE_SORT_ORDER[type_value_a] < KEY_TYPE_SORT_ORDER[type_value_b] end end local function get_key_value_pairs_in_proper_order (t) -- Generates a sequence of key value pairs, in proper order. -- Proper order is: -- 1. All integer keys are first, in order -- 2. Then by value type, as defined in VALUE_TYPE_SORT_ORDER in the top. -- 3. Then by key type. -- 3.1. String in alphanumeric order -- 3.2. Other wierdness. -- Error checking assert(type(t) == 'table') -- Do stuff local key_value_pairs = {} for key, value in pairs(t) do key_value_pairs[#key_value_pairs+1] = { key, value } end table.sort(key_value_pairs, compare_key_value_pair) return key_value_pairs end local function fill_holes_in_key_value_pairs (key_value_pairs) -- NOTE: Assumes that all keys are numbers -- Error checking assert(type(key_value_pairs) == 'table') -- Do stuff for i = 2, #key_value_pairs do for j = key_value_pairs[i-1][1] + 1, key_value_pairs[i][1] - 1 do key_value_pairs[#key_value_pairs+1] = { j, nil } end end table.sort(key_value_pairs, compare_key_value_pair) end -------------------------------------------------------------------------------- -- Formatting Util local function width_of_strings_in_l (l, start_i, stop_i) -- Argument fixing and Error Checking assert(type(l) == 'table') local start_i, stop_i = start_i or 1, stop_i or #l assert(type(start_i) == 'number') assert(type(start_i) == 'number') -- Do stuff local width = 0 for i = start_i, stop_i do width = width + ((type(l[i]) ~= 'string') and 1 or #l[i]) end return width end local function ignore_alignment_info (l, start_i, stop_i) -- Argument fixing and Error Checking assert(type(l) == 'table') local start_i, stop_i = start_i or 1, stop_i or #l assert(type(start_i) == 'number') assert(type(start_i) == 'number') -- Do stuff for i = start_i, stop_i do if type(l[i]) == 'table' and l[i][1] == 'align' then l[i] = '' end end end local function fix_alignment (l, start_i, stop_i) -- Argument fixing and Error Checking assert(type(l) == 'table') local start_i, stop_i = start_i or 1, stop_i or #l assert(type(start_i) == 'number') assert(type(start_i) == 'number') -- Find maximums local max = {} for i = start_i, stop_i do if type(l[i]) == 'table' and l[i][1] == 'align' then max[ l[i][2] ] = math.max( l[i][3], max[ l[i][2] ] or 0 ) end end -- Insert the proper whitespace for i = start_i, stop_i do if type(l[i]) == 'table' and l[i][1] == 'align' then l[i] = string.rep(' ', max[ l[i][2] ] - l[i][3]) end end end local function attempt_to_align_into_columns (l, start_i, stop_i, nr_items_pr_row) assert(type(l) == 'table') assert(type(start_i) == 'number') assert(type(stop_i) == 'number') assert(type(nr_items_pr_row) == 'number') local column = {} --- local start_of_item_i, item_nr = nil, 0 for i = start_i, stop_i do if type(l[i]) == 'table' and (l[i][1] == 'indent' or l[i][1] == 'seperator' or l[i][1] == 'unindent') then if start_of_item_i then local width_of_item = width_of_strings_in_l(l, start_of_item_i, i-1) local column_i = (item_nr-1)%nr_items_pr_row+1 column[column_i] = math.max(column[column_i] or 0, width_of_item) end start_of_item_i, item_nr = i + 1, item_nr + 1 end end --- local width = nr_items_pr_row * 2 - 1 -- FIXME: Magic numbers: 2 = #', ', 1 = #' ' for i = 1, #column do width = width + column[i] end -- return width, column end local function align_into_columns (l, start_i, stop_i) -- Argument fixing and Error Checking assert(type(l) == 'table') local start_i, stop_i = start_i or 1, stop_i or #l assert(type(start_i) == 'number') assert(type(start_i) == 'number') -- Find columns local columns = nil for nr_items_pr_row = 10, 1, -1 do -- TODO: Do this more intelligently. local column_width column_width, columns = attempt_to_align_into_columns(l, start_i, stop_i, nr_items_pr_row) if column_width <= MAX_WIDTH_FOR_SINGLE_LINE_TABLE then break end end -- Change alignment of columns local start_of_item_i, item_nr = nil, 0 for i = start_i, stop_i do if type(l[i]) == 'table' and l[i][1] == 'align' then local column_i = (item_nr-1)%#columns+1 l[i][2] = l[i][2] .. '_column_'..column_i elseif (l[i][1] == 'indent' or l[i][1] == 'seperator' or l[i][1] == 'unindent') then start_of_item_i, item_nr = i + 1, item_nr + 1 end end -- Fix newly changed alignment fix_alignment(l, start_i, stop_i) -- Quick-exit on only a single column if #columns == 1 then return end -- Fit into columns. local start_of_item_i, item_nr = nil, 0 for i = start_i, stop_i do if type(l[i]) ~= 'table' then -- Do nothing elseif (l[i][1] == 'indent' or l[i][1] == 'seperator' or l[i][1] == 'unindent') then if start_of_item_i and l[i][1] == 'seperator' then local column_i = (item_nr-1)%#columns+1 if column_i ~= #columns then local width_of_item = width_of_strings_in_l(l, start_of_item_i, i-1) l[i] = l[i][2] .. ' ' .. (' '):rep(columns[column_i]-width_of_item) end end start_of_item_i, item_nr = i + 1, item_nr + 1 end end end local function fix_seperator_info (l, indent_char, max_depth) -- Error Checking assert(type(l) == 'table') assert(type(indent_char) == 'string') assert(type(max_depth) == 'number') -- Do stuff local depth, inline_depth = 0, nil for i = 1, #l do if type(l[i]) ~= 'table' then -- Do nothing elseif l[i][1] == 'seperator' then assert(l[i][2] == nil or type(l[i][2]) == 'string') l[i] = (l[i][2] or '') .. (inline_depth and ' ' or ('\n' .. indent_char:rep(depth))) elseif l[i][1] == 'indent' then depth, inline_depth = depth + 1, inline_depth or l[i][3] == 'inline' and depth + 1 or nil l[i] = l[i][2] .. (inline_depth and ' ' or ('\n' .. indent_char:rep(depth))) elseif l[i][1] == 'unindent' then l[i] = (inline_depth and ' ' or ('\n' .. indent_char:rep(depth-1))) .. l[i][2] depth, inline_depth = depth - 1, (depth ~= inline_depth) and inline_depth or nil end end end -------------------------------------------------------------------------------- -- Formatting stuff local format_value -- Ways to format keys local function format_key_and_value_string_map (l, key, value, depth) l[#l+1] = key l[#l+1] = { 'align', 'key', #key } l[#l+1] = ' = ' return format_value(value, depth, l) end local function format_key_and_value_arbitr_map (l, key, value, depth) local index_before_key = #l+1 l[#l+1] = '[' format_value(key, math.huge, l) l[#l+1] = ']' l[#l+1] = { 'align', 'key', width_of_strings_in_l(l, index_before_key) } l[#l+1] = ' = ' return format_value(value, depth, l) end local function format_key_and_value_sequence (l, key, value, depth) return format_value(value, depth, l) end local TABLE_TYPE_TO_PAIR_FORMAT = { [TABLE_TYPE.EMPTY] = format_key_and_value_sequence, [TABLE_TYPE.SEQUENCE] = format_key_and_value_sequence, [TABLE_TYPE.SET] = format_key_and_value_arbitr_map, [TABLE_TYPE.MIXED] = format_key_and_value_arbitr_map, [TABLE_TYPE.STRING_MAP] = format_key_and_value_string_map, [TABLE_TYPE.PURE_MAP] = format_key_and_value_arbitr_map, } -- Formatting tables local function format_table (t, depth, l) -- TODO: Add more nuanced formatting. -- Error Checking assert(type(t) == 'table') assert(type(depth) == 'number' and type(l) == 'table') -- Do stuff if not l.info[t] then analyze_structure(t, l.options.max_depth-depth, l.info) end local table_info = l.info[t] assert(table_info) if l.options.recursion == 'marked' and table_info.marker then l[#l+1], l[#l+2], l[#l+3] = '<', table_info.marker, '>' end local already_visited = l.visited[t] l.visited[t] = true -- If empty, visited or above max-depth, give a small represetation: `{...}` if table_info.type == TABLE_TYPE.EMPTY or depth >= l.options.max_depth or already_visited then l '{' if l.options._table_addr_comment then l[#l+1] = ' --[[' .. table_info.address .. ']] ' end if table_info.type ~= TABLE_TYPE.EMPTY then l[#l+1] = '...' end return l '}' end -- Get key-value pairs, and possibly fill holes. local key_value_pairs = get_key_value_pairs_in_proper_order(t) if table_info.type == TABLE_TYPE.SEQUENCE and l.info[t].has_holes then fill_holes_in_key_value_pairs(key_value_pairs) end -- Find pair formatting function local pair_format_func = TABLE_TYPE_TO_PAIR_FORMAT[table_info.type] local start_of_table_i = #l + 1 assert(pair_format_func) -- Begin formatting table. l[#l+1] = {'indent', '{'} if l.options._table_addr_comment then l[#l+1], l[#l+2] = '--[['..table_info.address..']]', {'seperator'} end for _, pair in ipairs(key_value_pairs) do pair_format_func(l, pair[1], pair[2], depth + 1) l[#l+1] = {'seperator', ','} end if l[#l][1] == 'seperator' then l[#l] = nil end l[#l+1] = {'unindent', '}'} -- Decide for short or long table formatting. local table_width = width_of_strings_in_l(l, start_of_table_i) if table_width <= MAX_WIDTH_FOR_SINGLE_LINE_TABLE then -- Is short table: Ignore the "width of key"-shit l[start_of_table_i][3] = 'inline' ignore_alignment_info(l, start_of_table_i) elseif table_info.is_leaf_node then -- Is leaf node: Can format into columns. -- NOTE: Currently we only allow leaf-nodes to format into columns, due -- to issues with table alignment. align_into_columns(l, start_of_table_i) else -- Is long table: Fix whitespace alignment fix_alignment(l, start_of_table_i) end end -- Formatting Strings local function format_coroutine (value, depth, l) -- Formats a coroutine. Unfortunantly we cannot gather a lot of information -- about coroutines. -- Error check assert(type(value) == 'thread') assert(type(depth) == 'number' and type(l) == 'table') -- Do stuff l[#l+1] = coroutine.status(value) l[#l+1] = ' coroutine: ' l[#l+1] = tostring(value):sub(9) end local function format_primitive (value, depth, l) -- Error check assert(type(depth) == 'number' and type(l) == 'table') -- Do stuff l[#l+1] = tostring(value) end local TYPE_TO_FORMAT_FUNC = { ['nil'] = format_primitive, ['boolean'] = format_primitive, ['number'] = format_number, ['string'] = format_string, ['thread'] = format_coroutine, ['table'] = format_table, ['function'] = format_function, ['userdata'] = format_primitive, -- TODO ['cdata'] = format_primitive, -- TODO & Luajit only } function format_value (value, depth, l) assert(type(depth) == 'number' and type(l) == 'table') local formatting = TYPE_TO_FORMAT_FUNC[type(value)] if formatting then formatting(value, depth, l, format_value) else error(ERROR_UNKNOWN_TYPE:format(type(value), tostring(value)), 2) end end -------------------------------------------------------------------------------- -- StringBuilder local StringBuilder = {} StringBuilder.__index = StringBuilder StringBuilder.__call = function (l, s) l[#l+1] = s end setmetatable(StringBuilder, { __call = function() return setmetatable({}, StringBuilder) end }) -------------------------------------------------------------------------------- local DEBUG_OPTION_USED = { } local KNOWN_OPTIONS = { _table_addr_comment = { type = 'boolean', default = false, debug = 'debug' }, cut_strings = { type = 'boolean', default = false }, indent = { type = 'string', default = ' ' }, max_depth = { type = 'number', default = math.huge }, short_builtins = { type = 'boolean', default = false }, -- TODO: Outphase this. Rather automatically use the short versions in places where it would be strange to find the function, like keys, etc. recursion = { type = 'string', default = 'ignore', accepted = {['ignore'] = true, ['marked'] = true} }, } local function ensure_that_all_options_are_known (input_options) -- Goes through all the given options, throws error if one is unknown, gives -- warning if debug or experimental. Creates a clone of the given table, to -- avoid defaults leaking. -- Error check that options were table assert(type(input_options) == 'table') -- Error check options for option_name, option_value in pairs(input_options) do if not KNOWN_OPTIONS[option_name] then error(('[pretty]: Unknown option: %s. Was given value %s (%s)'):format(option_name, option_value, type(option_value)), 2) elseif type(option_value) ~= KNOWN_OPTIONS[option_name].type then error(('[pretty]: Bad value given to option %s: %s (%s). Expected value of type %s'):format(option_name, option_value, type(option_value), KNOWN_OPTIONS[option_name].type), 2) elseif KNOWN_OPTIONS[option_name].accepted and not KNOWN_OPTIONS[option_name].accepted[option_value] then error(('[pretty]: Bad value given to option %s: %s (%s). Expected one of: %s'):format(option_name, option_value, type(option_value), table.concat(KNOWN_OPTIONS[option_name].accepted, ', ')), 2) elseif KNOWN_OPTIONS[option_name].debug and not DEBUG_OPTION_USED[option_name] then DEBUG_OPTION_USED[option_name] = true print(('[pretty]: Using %s option "%s".\n Please note that this option may change at any time. It is not stable,\n not tested, and may indeed break or be removed without warning.'):format(KNOWN_OPTIONS[option_name].debug, option_name)) end end -- Create output options local output_options = {} -- Assign default values for option_name, option_info in pairs(KNOWN_OPTIONS) do if input_options[option_name] ~= nil then output_options[option_name] = input_options[option_name] else output_options[option_name] = option_info.default end end -- Returns input_options return output_options end local function pretty_format (value, options) -- Error checking local options = ensure_that_all_options_are_known(options or {}) -- Setup StringBuilder local l = StringBuilder() l.visited = { next_mark = 1 } l.options = options l.info = analyze_structure(value, options.max_depth) -- Format value. format_value(value, 0, l) -- If any alignment info still exists, ignore it fix_seperator_info(l, l.options.indent, l.options.max_depth) ignore_alignment_info(l) return table.concat(l, '') end return pretty_format