-- main.lua -- Implements the plugin entrypoint (in this case the entire plugin) -- Global variables: g_Plugin = nil; function Initialize(Plugin) g_Plugin = Plugin; Plugin:SetName("APIDump"); Plugin:SetVersion(1); LOG("Initialized " .. Plugin:GetName() .. " v." .. Plugin:GetVersion()) -- dump all available API functions and objects: -- DumpAPITxt(); -- Dump all available API object in HTML format into a subfolder: DumpAPIHtml(); return true end function DumpAPITxt() LOG("Dumping all available functions to API.txt..."); function dump (prefix, a, Output) for i, v in pairs (a) do if (type(v) == "table") then if (GetChar(i, 1) ~= ".") then if (v == _G) then -- LOG(prefix .. i .. " == _G, CYCLE, ignoring"); elseif (v == _G.package) then -- LOG(prefix .. i .. " == _G.package, ignoring"); else dump(prefix .. i .. ".", v, Output) end end elseif (type(v) == "function") then if (string.sub(i, 1, 2) ~= "__") then table.insert(Output, prefix .. i .. "()"); end end end end local Output = {}; dump("", _G, Output); table.sort(Output); local f = io.open("API.txt", "w"); for i, n in ipairs(Output) do f:write(n, "\n"); end f:close(); LOG("API.txt written."); end function CreateAPITables() --[[ We want an API table of the following shape: local API = { { Name = "cCuboid", Functions = { {Name = "Sort"}, {Name = "IsInside"} }, Constants = { } Descendants = {}, -- Will be filled by ReadDescriptions(), array of class APIs (references to other member in the tree) }}, { Name = "cBlockArea", Functions = { {Name = "Clear"}, {Name = "CopyFrom"}, ... } Constants = { {Name = "baTypes", Value = 0}, {Name = "baMetas", Value = 1}, ... } ... }} }; local Globals = { Functions = { ... }, Constants = { ... } }; --]] local Globals = {Functions = {}, Constants = {}, Descendants = {}}; local API = {}; local function Add(a_APIContainer, a_ObjName, a_ObjValue) if (type(a_ObjValue) == "function") then table.insert(a_APIContainer.Functions, {Name = a_ObjName}); elseif ( (type(a_ObjValue) == "number") or (type(a_ObjValue) == "string") ) then table.insert(a_APIContainer.Constants, {Name = a_ObjName, Value = a_ObjValue}); end end local function ParseClass(a_ClassName, a_ClassObj) local res = {Name = a_ClassName, Functions = {}, Constants = {}, Descendants = {}}; for i, v in pairs(a_ClassObj) do Add(res, i, v); end return res; end for i, v in pairs(_G) do if ( (v ~= _G) and -- don't want the global namespace (v ~= _G.packages) and -- don't want any packages (v ~= _G[".get"]) and (v ~= g_APIDesc) ) then if (type(v) == "table") then table.insert(API, ParseClass(i, v)); else Add(Globals, i, v); end end end return API, Globals; end function DumpAPIHtml() LOG("Dumping all available functions and constants to API subfolder..."); local API, Globals = CreateAPITables(); -- Sort the classes by name: table.sort(API, function (c1, c2) return (string.lower(c1.Name) < string.lower(c2.Name)); end ); -- Add Globals into the API: Globals.Name = "Globals"; table.insert(API, Globals); -- Read in the descriptions: ReadDescriptions(API); -- Create a "class index" file, write each class as a link to that file, -- then dump class contents into class-specific file local f = io.open("API/index.html", "w"); if (f == nil) then -- Create the output folder os.execute("mkdir API"); local err; f, err = io.open("API/index.html", "w"); if (f == nil) then LOGINFO("Cannot output HTML API: " .. err); return; end end f:write([[MCServer API - class index

MCServer API - class index

The following classes are available in the MCServer Lua scripting language:

"); f:close(); -- Copy the CSS file to the output folder (overwrite any existing): cssf = io.open("API/main.css", "w"); if (cssf ~= nil) then cssfi = io.open(g_Plugin:GetLocalDirectory() .. "/main.css", "r"); if (cssfi ~= nil) then local CSS = cssfi:read("*all"); cssf:write(CSS); cssfi:close(); end cssf:close(); end -- List the undocumented objects: f = io.open("API/undocumented.lua", "w"); if (f ~= nil) then f:write("\n-- This is the list of undocumented API objects, automatically generated by APIDump\n\n"); f:write("g_APIDesc =\n{\n\tClasses =\n\t{\n"); for i, cls in ipairs(API) do local HasFunctions = ((cls.UndocumentedFunctions ~= nil) and (#cls.UndocumentedFunctions > 0)); local HasConstants = ((cls.UndocumentedConstants ~= nil) and (#cls.UndocumentedConstants > 0)); if (HasFunctions or HasConstants) then f:write("\t\t" .. cls.Name .. " =\n\t\t{\n"); if ((cls.Desc == nil) or (cls.Desc == "")) then f:write("\t\t\tDesc = \"\"\n"); end end if (HasFunctions) then f:write("\t\t\tFunctions =\n\t\t\t{\n"); table.sort(cls.UndocumentedFunctions); for j, fn in ipairs(cls.UndocumentedFunctions) do f:write("\t\t\t\t" .. fn .. " = { Params = \"\", Return = \"\", Notes = \"\" },\n"); end -- for j, fn - cls.Undocumented[] f:write("\t\t\t},\n\n"); end if (HasConstants) then f:write("\t\t\tConstants =\n\t\t\t{\n"); table.sort(cls.UndocumentedConstants); for j, cn in ipairs(cls.UndocumentedConstants) do f:write("\t\t\t\t" .. cn .. " = { Notes = \"\" },\n"); end -- for j, fn - cls.Undocumented[] f:write("\t\t\t},\n\n"); end if (HasFunctions or HasConstants) then f:write("\t\t},\n\n"); end end -- for i, cls - API[] f:close(); end -- List the unexported documented API objects: f = io.open("API/unexported-documented.txt", "w"); if (f ~= nil) then for clsname, cls in pairs(g_APIDesc.Classes) do if not(cls.IsExported) then -- The whole class is not exported f:write("class\t" .. clsname .. "\n"); else if (cls.Functions ~= nil) then for fnname, fnapi in pairs(cls.Functions) do if not(fnapi.IsExported) then f:write("func\t" .. clsname .. "." .. fnname .. "\n"); end end -- for j, fn - cls.Functions[] end if (cls.Constants ~= nil) then for cnname, cnapi in pairs(cls.Constants) do if not(cnapi.IsExported) then f:write("const\t" .. clsname .. "." .. cnname .. "\n"); end end -- for j, fn - cls.Functions[] end end end -- for i, cls - g_APIDesc.Classes[] f:close(); end LOG("API subfolder written"); end function ReadDescriptions(a_API) -- Returns true if the function (specified by its fully qualified name) is to be ignored local function IsFunctionIgnored(a_FnName) if (g_APIDesc.IgnoreFunctions == nil) then return false; end for i, name in ipairs(g_APIDesc.IgnoreFunctions) do if (a_FnName:match(name)) then return true; end end return false; end -- Returns true if the constant (specified by its fully qualified name) is to be ignored local function IsConstantIgnored(a_CnName) if (g_APIDesc.IgnoreConstants == nil) then return false; end; for i, name in ipairs(g_APIDesc.IgnoreConstants) do if (a_CnName:match(name)) then return true; end end return false; end for i, cls in ipairs(a_API) do -- Rename special functions: for j, fn in ipairs(cls.Functions) do if (fn.Name == ".call") then fn.DocID = "constructor"; fn.Name = "() (constructor)"; elseif (fn.Name == ".add") then fn.DocID = "operator_plus"; fn.Name = "operator +"; elseif (fn.Name == ".div") then fn.DocID = "operator_div"; fn.Name = "operator /"; elseif (fn.Name == ".mul") then fn.DocID = "operator_mul"; fn.Name = "operator *"; elseif (fn.Name == ".sub") then fn.DocID = "operator_sub"; fn.Name = "operator -"; end end local APIDesc = g_APIDesc.Classes[cls.Name]; if (APIDesc ~= nil) then APIDesc.IsExported = true; cls.Desc = APIDesc.Desc; cls.AdditionalInfo = APIDesc.AdditionalInfo; -- Process inheritance: if (APIDesc.Inherits ~= nil) then for j, icls in ipairs(a_API) do if (icls.Name == APIDesc.Inherits) then table.insert(icls.Descendants, cls); cls.Inherits = icls; end end end cls.UndocumentedFunctions = {}; -- This will contain names of all the functions that are not documented cls.UndocumentedConstants = {}; -- This will contain names of all the constants that are not documented local DoxyFunctions = {}; -- This will contain all the API functions together with their documentation local function AddFunction(a_Name, a_Params, a_Return, a_Notes) table.insert(DoxyFunctions, {Name = a_Name, Params = a_Params, Return = a_Return, Notes = a_Notes}); end if (APIDesc.Functions ~= nil) then -- Assign function descriptions: for j, func in ipairs(cls.Functions) do local FnName = func.DocID or func.Name; local FnDesc = APIDesc.Functions[FnName]; if (FnDesc == nil) then -- No description for this API function AddFunction(func.Name); if not(IsFunctionIgnored(cls.Name .. "." .. FnName)) then table.insert(cls.UndocumentedFunctions, FnName); end else -- Description is available if (FnDesc[1] == nil) then -- Single function definition AddFunction(func.Name, FnDesc.Params, FnDesc.Return, FnDesc.Notes); else -- Multiple function overloads for k, desc in ipairs(FnDesc) do AddFunction(func.Name, desc.Params, desc.Return, desc.Notes); end -- for k, desc - FnDesc[] end FnDesc.IsExported = true; end end -- for j, func -- Replace functions with their described and overload-expanded versions: cls.Functions = DoxyFunctions; end -- if (APIDesc.Functions ~= nil) if (APIDesc.Constants ~= nil) then -- Assign constant descriptions: for j, cons in ipairs(cls.Constants) do local CnDesc = APIDesc.Constants[cons.Name]; if (CnDesc == nil) then -- Not documented if not(IsConstantIgnored(cls.Name .. "." .. cons.Name)) then table.insert(cls.UndocumentedConstants, cons.Name); end else cons.Notes = CnDesc.Notes; CnDesc.IsExported = true; end end -- for j, cons end -- if (APIDesc.Constants ~= nil) else -- Class is not documented at all, add all its members to Undocumented lists: cls.UndocumentedFunctions = {}; cls.UndocumentedConstants = {}; for j, func in ipairs(cls.Functions) do local FnName = func.DocID or func.Name; if not(IsFunctionIgnored(cls.Name .. "." .. FnName)) then table.insert(cls.UndocumentedFunctions, FnName); end end -- for j, func - cls.Functions[] for j, cons in ipairs(cls.Constants) do if not(IsConstantIgnored(cls.Name .. "." .. cons.Name)) then table.insert(cls.UndocumentedConstants, cons.Name); end end -- for j, cons - cls.Constants[] end -- else if (APIDesc ~= nil) -- Remove ignored functions: local NewFunctions = {}; for j, fn in ipairs(cls.Functions) do if (not(IsFunctionIgnored(cls.Name .. "." .. fn.Name))) then table.insert(NewFunctions, fn); end end -- for j, fn cls.Functions = NewFunctions; -- Sort the functions (they may have been renamed): table.sort(cls.Functions, function(f1, f2) if (f1.Name == f2.Name) then -- Same name, either comparing the same function to itself, or two overloads, in which case compare the params if ((f1.Params == nil) or (f2.Params == nil)) then return 0; end return (f1.Params < f2.Params); end return (f1.Name < f2.Name); end ); -- Sort the constants: table.sort(cls.Constants, function(c1, c2) return (c1.Name < c2.Name); end ); end -- for i, cls -- Sort the descendants lists: for i, cls in ipairs(a_API) do table.sort(cls.Descendants, function(c1, c2) return (c1.Name < c2.Name); end ); end -- for i, cls end function WriteHtmlClass(a_ClassAPI, a_AllAPI) local cf, err = io.open("API/" .. a_ClassAPI.Name .. ".html", "w"); if (cf == nil) then return; end -- Make a link out of anything with the special linkifying syntax {{link|title}} local function LinkifyString(a_String) local txt = a_String:gsub("{{([^|}]*)|([^}]*)}}", "%2") -- {{link|title}} txt = txt:gsub("{{([^|}]*)}}", "%1") -- {{LinkAndTitle}} return txt; end -- Writes a table containing all functions in the specified list, with an optional "inherited from" header when a_InheritedName is valid local function WriteFunctions(a_Functions, a_InheritedName) if (#a_Functions == 0) then return; end if (a_InheritedName ~= nil) then cf:write("

Functions inherited from " .. a_InheritedName .. "

"); end cf:write("\n"); for i, func in ipairs(a_Functions) do cf:write(""); cf:write(""); cf:write(""); cf:write("\n"); end cf:write("
NameParametersReturn valueNotes
" .. func.Name .. "" .. LinkifyString(func.Params or "").. "" .. LinkifyString(func.Return or "").. "" .. LinkifyString(func.Notes or "") .. "
\n"); end local function WriteDescendants(a_Descendants) if (#a_Descendants == 0) then return; end cf:write("\n"); end -- Build an array of inherited classes chain: local InheritanceChain = {}; local CurrInheritance = a_ClassAPI.Inherits; while (CurrInheritance ~= nil) do table.insert(InheritanceChain, CurrInheritance); CurrInheritance = CurrInheritance.Inherits; end cf:write([[MCServer API - ]] .. a_ClassAPI.Name .. [[

Contents

"); -- Write the class description: cf:write("

" .. a_ClassAPI.Name .. " class

\n"); if (a_ClassAPI.Desc ~= nil) then cf:write("

"); cf:write(LinkifyString(a_ClassAPI.Desc)); cf:write("

\n"); end; -- Write the inheritance, if available: if (HasInheritance) then cf:write("

Inheritance

\n"); if (#InheritanceChain > 0) then cf:write("

This class inherits from the following parent classes:

\n"); end if (#a_ClassAPI.Descendants > 0) then cf:write("

This class has the following descendants:\n"); WriteDescendants(a_ClassAPI.Descendants); cf:write("

\n"); end end -- Write the constants: cf:write("

Constants

\n"); cf:write("\n"); for i, cons in ipairs(a_ClassAPI.Constants) do cf:write(""); cf:write(""); cf:write("\n"); end cf:write("
NameValueNotes
" .. cons.Name .. "" .. cons.Value .. "" .. LinkifyString(cons.Notes or "") .. "
\n"); -- Write the functions, including the inherited ones: cf:write("

Functions

\n"); WriteFunctions(a_ClassAPI.Functions, nil); for i, cls in ipairs(InheritanceChain) do WriteFunctions(cls.Functions, cls.Name); end -- Write the additional infos: if (a_ClassAPI.AdditionalInfo ~= nil) then for i, additional in ipairs(a_ClassAPI.AdditionalInfo) do cf:write("

" .. additional.Header .. "

\n"); cf:write(additional.Contents); end end cf:write(""); cf:close(); end