--------- -- General utility functions for ldoc -- @module tools require 'pl' local tools = {} local M = tools local append = table.insert local lexer = require 'ldoc.lexer' local quit = utils.quit -- this constructs an iterator over a list of objects which returns only -- those objects where a field has a certain value. It's used to iterate -- only over functions or tables, etc. -- (something rather similar exists in LuaDoc) function M.type_iterator (list,field,value) return function() local i = 1 return function() local val = list[i] while val and val[field] ~= value do i = i + 1 val = list[i] end i = i + 1 if val then return val end end end end -- KindMap is used to iterate over a set of categories, called _kinds_, -- and the associated iterator over all items in that category. -- For instance, a module contains functions, tables, etc and we will -- want to iterate over these categories in a specified order: -- -- for kind, items in module.kinds() do -- print('kind',kind) -- for item in items() do print(item.name) end -- end -- -- The kind is typically used as a label or a Title, so for type 'function' the -- kind is 'Functions' and so on. local KindMap = class() M.KindMap = KindMap -- calling a KindMap returns an iterator. This returns the kind, the iterator -- over the items of that type, and the actual type tag value. function KindMap:__call () local i = 1 local klass = self.klass return function() local kind = klass.kinds[i] if not kind then return nil end -- no more kinds while not self[kind] do i = i + 1 kind = klass.kinds[i] if not kind then return nil end end i = i + 1 local type = klass.types_by_kind [kind].type return kind, self[kind], type end end function KindMap:put_kind_first (kind) -- find this kind in our kind list local kinds = self.klass.kinds,kind local idx = tablex.find(kinds,kind) -- and swop with the start! if idx then kinds[1],kinds[idx] = kinds[idx],kinds[1] end end function KindMap:type_of (item) local klass = self.klass local kind = klass.types_by_tag[item.type] return klass.types_by_kind [kind] end function KindMap:get_section_description (kind) return self.klass.descriptions[kind] end -- called for each new item. It does not actually create separate lists, -- (although that would not break the interface) but creates iterators -- for that item type if not already created. function KindMap:add (item,items,description) local group = item[self.fieldname] -- which wd be item's type or section local kname = self.klass.types_by_tag[group] -- the kind name if not self[kname] then self[kname] = M.type_iterator (items,self.fieldname,group) self.klass.descriptions[kname] = description end item.kind = kname:lower() end -- KindMap has a 'class constructor' which is used to modify -- any new base class. function KindMap._class_init (klass) klass.kinds = {} -- list in correct order of kinds klass.types_by_tag = {} -- indexed by tag klass.types_by_kind = {} -- indexed by kind klass.descriptions = {} -- optional description for each kind end function KindMap.add_kind (klass,tag,kind,subnames) klass.types_by_tag[tag] = kind klass.types_by_kind[kind] = {type=tag,subnames=subnames} append(klass.kinds,kind) end ----- some useful utility functions ------ function M.module_basepath() local lpath = List.split(package.path,';') for p in lpath:iter() do local p = path.dirname(p) if path.isabs(p) then return p end end end -- split a qualified name into the module part and the name part, -- e.g 'pl.utils.split' becomes 'pl.utils' and 'split' function M.split_dotted_name (s) local s1,s2 = path.splitext(s) if s2=='' then return nil else return s1,s2:sub(2) end end -- expand lists of possibly qualified identifiers -- given something like {'one , two.2','three.drei.drie)'} -- it will output {"one","two.2","three.drei.drie"} function M.expand_comma_list (ls) local new_ls = List() for s in ls:iter() do s = s:gsub('[^%.:%-%w_]*$','') if s:find ',' then new_ls:extend(List.split(s,'%s*,%s*')) else new_ls:append(s) end end return new_ls end -- grab lines from a line iterator `iter` until the line matches the pattern. -- Returns the joined lines and the line, which may be nil if we run out of -- lines. function M.grab_while_not(iter,pattern) local line = iter() local res = {} while line and not line:match(pattern) do append(res,line) line = iter() end res = table.concat(res,'\n') return res,line end function M.extract_identifier (value) return value:match('([%.:%-_%w]+)') end function M.strip (s) return s:gsub('^%s+',''):gsub('%s+$','') end function M.check_directory(d) if not path.isdir(d) then lfs.mkdir(d) end end function M.check_file (f,original) if not path.exists(f) or path.getmtime(original) > path.getmtime(f) then local text,err = utils.readfile(original) if text then text,err = utils.writefile(f,text) end if err then quit("Could not copy "..original.." to "..f) end end end function M.writefile(name,text) local ok,err = utils.writefile(name,text) if err then quit(err) end end function M.name_of (lpath) lpath,ext = path.splitext(lpath) return lpath end function M.this_module_name (basename,fname) local ext if basename == '' then return M.name_of(fname) end basename = path.abspath(basename) if basename:sub(-1,-1) ~= path.sep then basename = basename..path.sep end local lpath,cnt = fname:gsub('^'..utils.escape(basename),'') --print('deduce',lpath,cnt,basename) if cnt ~= 1 then quit("module(...) name deduction failed: base "..basename.." "..fname) end lpath = lpath:gsub(path.sep,'.') return M.name_of(lpath):gsub('%.init$','') end function M.find_existing_module (name, dname, searchfn) local fullpath,lua = searchfn(name) local mod = true if not fullpath then -- maybe it's a function reference? -- try again with the module part local mpath,fname = M.split_dotted_name(name) if mpath then fullpath,lua = searchfn(mpath) else fullpath = nil end if not fullpath then return nil, "module or function '"..dname.."' not found on module path" else mod = fname end end if not lua then return nil, "module '"..name.."' is a binary extension" end return fullpath, mod end function M.lookup_existing_module_or_function (name, docpath) -- first look up on the Lua module path local fullpath, mod = M.find_existing_module(name,name,path.package_path) -- no go; but see if we can find it on the doc path if not fullpath then fullpath, mod = M.find_existing_module("ldoc.builtin." .. name,name,path.package_path) --~ fullpath, mod = M.find_existing_module(name, function(name) --~ local fpath = package.searchpath(name,docpath) --~ return fpath,true -- result must always be 'lua'! --~ end) end return fullpath, mod -- `mod` can be the error message end --------- lexer tools ----- local tnext = lexer.skipws local function type_of (tok) return tok[1] end local function value_of (tok) return tok[2] end -- This parses Lua formal argument lists. It will return a list of argument -- names, which also has a comments field, which will contain any commments -- following the arguments. ldoc will use these in addition to explicit -- param tags. function M.get_parameters (tok,endtoken,delim) tok = M.space_skip_getter(tok) local args = List() args.comments = {} local ltl = lexer.get_separated_list(tok,endtoken,delim) if not ltl or #ltl[1] == 0 then return args end -- no arguments local function set_comment (idx,tok) local text = value_of(tok):gsub('%s*$','') args.comments[args[idx]] = text end for i = 1,#ltl do --print('check',i,ltl[i],#ltl[i]) local tl = ltl[i] if #tl > 0 then if type_of(tl[1]) == 'comment' then if i > 1 then set_comment(i-1,tl[1]) end if #tl > 1 then args:append(value_of(tl[2])) end else args:append(value_of(tl[1])) end if i == #ltl then local last_tok = tl[#tl] if #tl > 1 and type_of(last_tok) == 'comment' then set_comment(i,last_tok) end end end end return args end -- parse a Lua identifier - contains names separated by . and :. function M.get_fun_name (tok,first) local res = {} local t,name,sep if not first then t,name = tnext(tok) else t,name = 'iden',first end t,sep = tnext(tok) while sep == '.' or sep == ':' do append(res,name) append(res,sep) t,name = tnext(tok) t,sep = tnext(tok) end append(res,name) return table.concat(res),t,sep end -- space-skipping version of token iterator function M.space_skip_getter(tok) return function () local t,v = tok() while t and t == 'space' do t,v = tok() end return t,v end end function M.quote (s) return "'"..s.."'" end -- The PL Lua lexer does not do block comments -- when used in line-grabbing mode, so this function grabs each line -- until we meet the end of the comment function M.grab_block_comment (v,tok,patt) local res = {v} repeat v = lexer.getline(tok) if v:match (patt) then break end append(res,v) append(res,'\n') until false res = table.concat(res) --print(res) return 'comment',res end local prel = path.normcase('/[^/]-/%.%.') function M.abspath (f) local count local res = path.normcase(path.abspath(f)) while true do res,count = res:gsub(prel,'') if count == 0 then break end end return res end function M.process_file_list (list, mask, operation, ...) local exclude_list = list.exclude and M.files_from_list(list.exclude, mask) local function process (f,...) f = M.abspath(f) if not exclude_list or exclude_list and exclude_list:index(f) == nil then operation(f, ...) end end for _,f in ipairs(list) do if path.isdir(f) then local files = List(dir.getallfiles(f,mask)) for f in files:iter() do process(f,...) end elseif path.isfile(f) then process(f,...) else quit("file or directory does not exist: "..M.quote(f)) end end end function M.files_from_list (list, mask) local excl = List() M.process_file_list (list, mask, function(f) excl:append(f) end) return excl end return tools