--[[ extra string routines ]] local path = (...):gsub(".stringx", ".") local assert = require(path .. "assert") local stringx = setmetatable({}, { __index = string }) --split a string on a delimiter into an ordered table function stringx.split(self, delim) assert:type(self, "string", "stringx.split - self", 1) assert:type(delim, "string", "stringx.split - delim", 1) --we try to create as little garbage as possible! --only one table to contain the result, plus the split strings. --so we do two passes, and work with the bytes underlying the string --partly because string.find is not compiled on older luajit :) local res = {} local length = self:len() -- local delim_length = delim:len() --empty delim? split to individual characters if delim_length == 0 then for i = 1, length do table.insert(res, self:sub(i, i)) end return res end local delim_start = delim:byte(1) --pass 1 --collect split sites local i = 1 while i <= length do --scan for delimiter if self:byte(i) == delim_start then local has_whole_delim = true for j = 2, delim_length do if self:byte(i + j - 1) ~= delim:byte(j) then has_whole_delim = false break end end if has_whole_delim then table.insert(res, i) end --iterate forward i = i + delim_length else --iterate forward i = i + 1 end end --pass 2 --collect substrings i = 1 for si, j in ipairs(res) do res[si] = self:sub(i, j-1) i = j + delim_length end --add the final section table.insert(res, self:sub(i, -1)) --return the collection return res end --turn input into a vaguely easy to read string --(which is also able to be parsed by lua in many cases) --todo: support cyclic references without crashing :) function stringx.pretty(input, indent, after) --if the input is not a table, or it has a tostring metamethod --then we can just use tostring local mt = getmetatable(input) if type(input) ~= "table" or mt and mt.__tostring then local s = tostring(input) --quote strings if type(input) == "string" then s = '"' .. s .. '"' end return s end --resolve indentation requirements indent = indent or "" if type(indent) == "number" then indent = (" "):rep(indent) end local newline = indent == "" and "" or "\n" local function internal_value(v) v = stringx.pretty(v, indent, after) if indent ~= "" then v = v:gsub(newline, newline..indent) end return v end --otherwise, we've got to build up a table representation --collate into member chunks local chunks = {} --(tracking for already-seen elements from ipairs) local seen = {} --sequential part first --(in practice, pairs already does this, but the order isn't guaranteed) for i, v in ipairs(input) do seen[i] = true table.insert(chunks, internal_value(v)) end --non sequential follows for k, v in pairs(input) do if not seen[k] then --encapsulate anything that's not a string --todo: also keywords and strings with spaces if type(k) ~= "string" then k = "[" .. tostring(k) .. "]" end table.insert(chunks, k .. " = " .. internal_value(v)) end end --resolve number to newline skip after after = after or 1 if after and after > 1 then local line_chunks = {} while #chunks > 0 do local break_next = false local line = {} for i = 1, after do if #chunks == 0 then break end local v = chunks[1] --tables split to own line if v:find("{") then --break line here break_next = true break else table.insert(line, table.remove(chunks, 1)) end end if #line > 0 then table.insert(line_chunks, table.concat(line, ", ")) end if break_next then table.insert(line_chunks, table.remove(chunks, 1)) break_next = false end end chunks = line_chunks end local multiline = #chunks > 1 local separator = (indent == "" or not multiline) and ", " or ",\n"..indent if multiline then return "{" .. newline .. indent .. table.concat(chunks, separator) .. newline .. "}" end return "{" .. table.concat(chunks, separator) .. "}" end --(generate a map of whitespace byte values) local _whitespace_bytes = {} do local _whitespace = " \t\n\r" for i = 1, _whitespace:len() do _whitespace_bytes[_whitespace:byte(i)] = true end end --trim all whitespace off the head and tail of a string -- specifically trims space, tab, newline, and carriage return characters -- ignores form feeds, vertical tabs, and backspaces -- -- only generates one string of garbage in the case there's actually space to trim function stringx.trim(s) --cache local len = s:len() --we search for the head and tail of the string iteratively --we could fuse these loops, but two separate loops is a lot easier to follow --and branches less as well. local head = 0 for i = 1, len do if not _whitespace_bytes[s:byte(i)] then head = i break end end local tail = 0 for i = len, 1, -1 do if not _whitespace_bytes[s:byte(i)] then tail = i break end end --overlapping ranges means no content if head > tail then return "" end --limit ranges means no trim if head == 1 and tail == len then return s end --pull out the content return s:sub(head, tail) end function stringx.deindent(s, keep_trailing_empty) --detect windows or unix newlines local windows_newlines = s:find("\r\n", nil, true) local newline = windows_newlines and "\r\n" or "\n" --split along newlines local lines = stringx.split(s, newline) --detect and strip any leading blank lines local leading_newline = false while lines[1] == "" do leading_newline = true table.remove(lines, 1) end --nothing to do if #lines == 0 then return "" end --detect indent local _, _, indent = lines[1]:find("^([ \t]*)") local indent_len = indent and indent:len() or 0 --not indented if indent_len == 0 then return table.concat(lines, newline) end --de-indent the lines local res = {} for _, line in ipairs(lines) do local line_start = line:sub(1, indent:len()) local start_len = line_start:len() if line_start == indent or ( start_len < indent_len and line_start == indent:sub(1, start_len) ) then line = line:sub(start_len + 1) end table.insert(res, line) end --should if not keep_trailing_empty then if res[#res] == "" then table.remove(res) end end return table.concat(res, newline) end --alias stringx.dedent = stringx.deindent return stringx