-- main.lua
-- Implements the plugin entrypoint (in this case the entire plugin)
-- Global variables:
g_Plugin = nil;
g_PluginFolder = "";
g_TrackedPages = {}; -- List of tracked pages, to be checked later whether they exist. Each item is an array of referring pagenames.
g_Stats = -- Statistics about the documentation
{
NumTotalClasses = 0,
NumUndocumentedClasses = 0,
NumTotalFunctions = 0,
NumUndocumentedFunctions = 0,
NumTotalConstants = 0,
NumUndocumentedConstants = 0,
NumTotalVariables = 0,
NumUndocumentedVariables = 0,
NumTotalHooks = 0,
NumUndocumentedHooks = 0,
NumTrackedLinks = 0,
NumInvalidLinks = 0,
}
function Initialize(Plugin)
g_Plugin = Plugin;
Plugin:SetName("APIDump");
Plugin:SetVersion(1);
LOG("Initialising " .. Plugin:GetName() .. " v." .. Plugin:GetVersion())
g_PluginFolder = Plugin:GetLocalFolder();
-- Load the API descriptions from the Classes and Hooks subfolders:
if (g_APIDesc.Classes == nil) then
g_APIDesc.Classes = {};
end
if (g_APIDesc.Hooks == nil) then
g_APIDesc.Hooks = {};
end
LoadAPIFiles("/Classes/", g_APIDesc.Classes);
LoadAPIFiles("/Hooks/", g_APIDesc.Hooks);
-- dump all available API functions and objects:
-- DumpAPITxt();
-- Dump all available API object in HTML format into a subfolder:
DumpAPIHtml();
LOG("APIDump finished");
return true
end
function LoadAPIFiles(a_Folder, a_DstTable)
local Folder = g_PluginFolder .. a_Folder;
for idx, fnam in ipairs(cFile:GetFolderContents(Folder)) do
local FileName = Folder .. fnam;
-- We only want .lua files from the folder:
if (cFile:IsFile(FileName) and fnam:match(".*%.lua$")) then
local TablesFn, Err = loadfile(FileName);
if (TablesFn == nil) then
LOGWARNING("Cannot load API descriptions from " .. FileName .. ", Lua error '" .. Err .. "'.");
else
local Tables = TablesFn();
for k, cls in pairs(Tables) do
a_DstTable[k] = cls;
end
end -- if (TablesFn)
end -- if (is lua file)
end -- for fnam - Folder[]
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 = {
},
Variables = {
},
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},
...
},
Variables = {
},
...
}}
};
local Globals = {
Functions = {
...
},
Constants = {
...
}
};
--]]
local Globals = {Functions = {}, Constants = {}, Variables = {}, 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 = {}, Variables = {}, Descendants = {}};
-- Add functions and constants:
for i, v in pairs(a_ClassObj) do
Add(res, i, v);
end
-- Member variables:
local SetField = a_ClassObj[".set"] or {};
if ((a_ClassObj[".get"] ~= nil) and (type(a_ClassObj[".get"]) == "table")) then
for k, v in pairs(a_ClassObj[".get"]) do
if (SetField[k] == nil) then
-- It is a read-only variable, add it as a constant:
table.insert(res.Constants, {Name = k, Value = ""});
else
-- It is a read-write variable, add it as a variable:
table.insert(res.Variables, { Name = k });
end
end
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...");
LOG("Moving static files..");
local localFolder = ipairs(g_Plugin:GetLocalFolder());
for k, v in cFile:GetFolderContents("Static") do
cFile:Copy(localFolder .. "/Static/" .. v, "API/" .. v);
end
LOG("Creating API tables...");
local API, Globals = CreateAPITables();
local Hooks = {};
local UndocumentedHooks = {};
-- Sort the classes by name:
LOG("Sorting...");
table.sort(API,
function (c1, c2)
return (string.lower(c1.Name) < string.lower(c2.Name));
end
);
g_Stats.NumTotalClasses = #API;
-- Add Globals into the API:
Globals.Name = "Globals";
table.insert(API, Globals);
-- Extract hook constants:
for name, obj in pairs(cPluginManager) do
if (
(type(obj) == "number") and
name:match("HOOK_.*") and
(name ~= "HOOK_MAX") and
(name ~= "HOOK_NUM_HOOKS")
) then
table.insert(Hooks, { Name = name });
end
end
table.sort(Hooks,
function(Hook1, Hook2)
return (Hook1.Name < Hook2.Name);
end
);
-- Read in the descriptions:
LOG("Reading descriptions...");
ReadDescriptions(API);
ReadHooks(Hooks);
-- Create the output folder
if not(cFile:IsFolder("API")) then
cFile:CreateFolder("API");
end
-- Create a "class index" file, write each class as a link to that file,
-- then dump class contents into class-specific file
LOG("Writing HTML files...");
local f = io.open("API/index.html", "w");
if (f == nil) then
LOGINFO("Cannot output HTML API: " .. err);
return;
end
f:write([[
MCServer API - Index
MCServer API - Index
The API reference is divided into the following sections:
A plugin can register to be called whenever an "interesting event" occurs. It does so by calling
cPluginManager's AddHook() function and implementing a callback
function to handle the event.
A plugin can decide whether it will let the event pass through to the rest of the plugins, or hide it
from them. This is determined by the return value from the hook callback function. If the function
returns false or no value, the event is propagated further. If the function returns true, the processing
is stopped, no other plugin receives the notification (and possibly MCServer disables the default
behavior for the event). See each hook's details to see the exact behavior.
Hook name
Called when
]]);
for i, hook in ipairs(Hooks) do
if (hook.DefaultFnName == nil) then
-- The hook is not documented yet
f:write("
The following pages provide various extra information
]]);
for i, extra in ipairs(g_APIDesc.ExtraPages) do
local SrcFileName = g_PluginFolder .. "/" .. extra.FileName;
if (cFile:Exists(SrcFileName)) then
local DstFileName = "API/" .. extra.FileName;
if (cFile:Exists(DstFileName)) then
cFile:Delete(DstFileName);
end
cFile:Copy(SrcFileName, DstFileName);
f:write("
");
-- Copy the static files to the output folder (overwrite any existing):
cFile:Copy(g_Plugin:GetLocalFolder() .. "/main.css", "API/main.css");
cFile:Copy(g_Plugin:GetLocalFolder() .. "/prettify.js", "API/prettify.js");
cFile:Copy(g_Plugin:GetLocalFolder() .. "/prettify.css", "API/prettify.css");
cFile:Copy(g_Plugin:GetLocalFolder() .. "/lang-lua.js", "API/lang-lua.js");
-- List the documentation problems:
LOG("Listing leftovers...");
ListUndocumentedObjects(API, UndocumentedHooks);
ListUnexportedObjects();
ListMissingPages();
WriteStats(f);
f:write([[
]]);
f:close();
LOG("API subfolder written");
end
function ReadDescriptions(a_API)
-- Returns true if the class of the specified name is to be ignored
local function IsClassIgnored(a_ClsName)
if (g_APIDesc.IgnoreClasses == nil) then
return false;
end
for i, name in ipairs(g_APIDesc.IgnoreClasses) do
if (a_ClsName:match(name)) then
return true;
end
end
return false;
end
-- Returns true if the function is to be ignored
local function IsFunctionIgnored(a_ClassName, a_FnName)
if (g_APIDesc.IgnoreFunctions == nil) then
return false;
end
if (((g_APIDesc.Classes[a_ClassName] or {}).Functions or {})[a_FnName] ~= nil) then
-- The function is documented, don't ignore
return false;
end
local FnName = a_ClassName .. "." .. a_FnName;
for i, name in ipairs(g_APIDesc.IgnoreFunctions) do
if (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
-- Returns true if the member variable (specified by its fully qualified name) is to be ignored
local function IsVariableIgnored(a_VarName)
if (g_APIDesc.IgnoreVariables == nil) then
return false;
end;
for i, name in ipairs(g_APIDesc.IgnoreVariables) do
if (a_VarName:match(name)) then
return true;
end
end
return false;
end
-- Remove ignored classes from a_API:
local APICopy = {};
for i, cls in ipairs(a_API) do
if not(IsClassIgnored(cls.Name)) then
table.insert(APICopy, cls);
end
end
for i = 1, #a_API do
a_API[i] = APICopy[i];
end;
-- Process the documentation for each class:
for i, cls in ipairs(a_API) do
-- Initialize default values for each class:
cls.ConstantGroups = {};
cls.NumConstantsInGroups = 0;
cls.NumConstantsInGroupsForDescendants = 0;
-- 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 -";
elseif (fn.Name == ".eq") then
fn.DocID = "operator_eq";
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
cls.UndocumentedVariables = {}; -- This will contain names of all the variables 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;
else -- if (APIDesc.Functions ~= nil)
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
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
else -- if (APIDesc.Constants ~= nil)
for j, cons in ipairs(cls.Constants) do
if not(IsConstantIgnored(cls.Name .. "." .. cons.Name)) then
table.insert(cls.UndocumentedConstants, cons.Name);
end
end
end -- else if (APIDesc.Constants ~= nil)
-- Assign member variables' descriptions:
if (APIDesc.Variables ~= nil) then
for j, var in ipairs(cls.Variables) do
local VarDesc = APIDesc.Variables[var.Name];
if (VarDesc == nil) then
-- Not documented
if not(IsVariableIgnored(cls.Name .. "." .. var.Name)) then
table.insert(cls.UndocumentedVariables, var.Name);
end
else
-- Copy all documentation:
for k, v in pairs(VarDesc) do
var[k] = v
end
end
end -- for j, var
else -- if (APIDesc.Variables ~= nil)
for j, var in ipairs(cls.Variables) do
if not(IsVariableIgnored(cls.Name .. "." .. var.Name)) then
table.insert(cls.UndocumentedVariables, var.Name);
end
end
end -- else if (APIDesc.Variables ~= nil)
if (APIDesc.ConstantGroups ~= nil) then
-- Create links between the constants and the groups:
local NumInGroups = 0;
local NumInDescendantGroups = 0;
for j, group in pairs(APIDesc.ConstantGroups) do
group.Name = j;
group.Constants = {};
if (type(group.Include) == "string") then
group.Include = { group.Include };
end
local NumInGroup = 0;
for idx, incl in ipairs(group.Include or {}) do
for cidx, cons in ipairs(cls.Constants) do
if ((cons.Group == nil) and cons.Name:match(incl)) then
cons.Group = group;
table.insert(group.Constants, cons);
NumInGroup = NumInGroup + 1;
end
end -- for cidx - cls.Constants[]
end -- for idx - group.Include[]
NumInGroups = NumInGroups + NumInGroup;
if (group.ShowInDescendants) then
NumInDescendantGroups = NumInDescendantGroups + NumInGroup;
end
-- Sort the constants:
table.sort(group.Constants,
function(c1, c2)
return (c1.Name < c2.Name);
end
);
end -- for j - APIDesc.ConstantGroups[]
cls.ConstantGroups = APIDesc.ConstantGroups;
cls.NumConstantsInGroups = NumInGroups;
cls.NumConstantsInGroupsForDescendants = NumInDescendantGroups;
-- Remove grouped constants from the normal list:
local NewConstants = {};
for idx, cons in ipairs(cls.Constants) do
if (cons.Group == nil) then
table.insert(NewConstants, cons);
end
end
cls.Constants = NewConstants;
end -- if (ConstantGroups ~= nil)
else -- if (APIDesc ~= nil)
-- Class is not documented at all, add all its members to Undocumented lists:
cls.UndocumentedFunctions = {};
cls.UndocumentedConstants = {};
cls.UndocumentedVariables = {};
cls.Variables = cls.Variables or {};
g_Stats.NumUndocumentedClasses = g_Stats.NumUndocumentedClasses + 1;
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[]
for j, var in ipairs(cls.Variables) do
if not(IsConstantIgnored(cls.Name .. "." .. var.Name)) then
table.insert(cls.UndocumentedVariables, var.Name);
end
end -- for j, var - cls.Variables[]
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
);
-- Remove ignored constants:
local NewConstants = {};
for j, cn in ipairs(cls.Constants) do
if (not(IsFunctionIgnored(cls.Name, cn.Name))) then
table.insert(NewConstants, cn);
end
end -- for j, cn
cls.Constants = NewConstants;
-- Sort the constants:
table.sort(cls.Constants,
function(c1, c2)
return (c1.Name < c2.Name);
end
);
-- Remove ignored member variables:
local NewVariables = {};
for j, var in ipairs(cls.Variables) do
if (not(IsVariableIgnored(cls.Name .. "." .. var.Name))) then
table.insert(NewVariables, var);
end
end -- for j, var
cls.Variables = NewVariables;
-- Sort the member variables:
table.sort(cls.Variables,
function(v1, v2)
return (v1.Name < v2.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 ReadHooks(a_Hooks)
--[[
a_Hooks = {
{ Name = "HOOK_1"},
{ Name = "HOOK_2"},
...
};
We want to add hook descriptions to each hook in this array
--]]
for i, hook in ipairs(a_Hooks) do
local HookDesc = g_APIDesc.Hooks[hook.Name];
if (HookDesc ~= nil) then
for key, val in pairs(HookDesc) do
hook[key] = val;
end
end
end -- for i, hook - a_Hooks[]
g_Stats.NumTotalHooks = #a_Hooks;
end
-- Make a link out of anything with the special linkifying syntax {{link|title}}
function LinkifyString(a_String, a_Referrer)
assert(a_Referrer ~= nil);
assert(a_Referrer ~= "");
--- Adds a page to the list of tracked pages (to be checked for existence at the end)
local function AddTrackedPage(a_PageName)
local Pg = (g_TrackedPages[a_PageName] or {});
table.insert(Pg, a_Referrer);
g_TrackedPages[a_PageName] = Pg;
end
--- Creates the HTML for the specified link and title
local function CreateLink(Link, Title)
if (Link:sub(1, 7) == "http://") then
-- The link is a full absolute URL, do not modify, do not track:
return "" .. Title .. "";
end
local idxHash = Link:find("#");
if (idxHash ~= nil) then
-- The link contains an anchor:
if (idxHash == 1) then
-- Anchor in the current page, no need to track:
return "" .. Title .. "";
end
-- Anchor in another page:
local PageName = Link:sub(1, idxHash - 1);
AddTrackedPage(PageName);
return "" .. Title .. "";
end
-- Link without anchor:
AddTrackedPage(Link);
return "" .. Title .. "";
end
-- Linkify the strings using the CreateLink() function:
local txt = a_String:gsub("{{([^|}]*)|([^}]*)}}", CreateLink) -- {{link|title}}
txt = txt:gsub("{{([^|}]*)}}", -- {{LinkAndTitle}}
function(LinkAndTitle)
local idxHash = LinkAndTitle:find("#");
if (idxHash ~= nil) then
-- The LinkAndTitle contains a hash, remove the hashed part from the title:
return CreateLink(LinkAndTitle, LinkAndTitle:sub(1, idxHash - 1));
end
return CreateLink(LinkAndTitle, LinkAndTitle);
end
);
return txt;
end
function WriteHtmlClass(a_ClassAPI, a_AllAPI)
local cf, err = io.open("API/" .. a_ClassAPI.Name .. ".html", "w");
if (cf == nil) then
return;
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, "
\n");
end
cf:write("
\n
Name
Parameters
Return value
Notes
\n");
for i, func in ipairs(a_Functions) do
cf:write("
", func.Name, "
\n");
cf:write("
", LinkifyString(func.Params or "", (a_InheritedName or a_ClassAPI.Name)), "
\n");
cf:write("
", LinkifyString(func.Return or "", (a_InheritedName or a_ClassAPI.Name)), "
\n");
cf:write("
", LinkifyString(func.Notes or "(undocumented)", (a_InheritedName or a_ClassAPI.Name)), "
\n");
end
cf:write("
\n");
end
local function WriteConstantTable(a_Constants, a_Source)
cf:write("
\n
Name
Value
Notes
\n");
for i, cons in ipairs(a_Constants) do
cf:write("
", cons.Name, "
\n");
cf:write("
", cons.Value, "
\n");
cf:write("
", LinkifyString(cons.Notes or "", a_Source), "
\n");
end
cf:write("
\n\n");
end
local function WriteConstants(a_Constants, a_ConstantGroups, a_NumConstantGroups, a_InheritedName)
if ((#a_Constants == 0) and (a_NumConstantGroups == 0)) then
return;
end
local Source = a_ClassAPI.Name
if (a_InheritedName ~= nil) then
cf:write("
Constants inherited from ", a_InheritedName, "
\n");
Source = a_InheritedName;
end
if (#a_Constants > 0) then
WriteConstantTable(a_Constants, Source);
end
for k, group in pairs(a_ConstantGroups) do
if ((a_InheritedName == nil) or group.ShowInDescendants) then
cf:write("
");
end
end
end
local function WriteVariables(a_Variables, a_InheritedName)
if (#a_Variables == 0) then
return;
end
if (a_InheritedName ~= nil) then
cf:write("
Member variables inherited from ", a_InheritedName, "
\n");
end
cf:write("
Name
Type
Notes
\n");
for i, var in ipairs(a_Variables) do
cf:write("
", var.Name, "
\n");
cf:write("
", LinkifyString(var.Type or "(undocumented)", a_InheritedName or a_ClassAPI.Name), "
\n");
cf:write("
", LinkifyString(var.Notes or "", a_InheritedName or a_ClassAPI.Name), "
\n
\n");
end
cf:write("
\n\n");
end
local function WriteDescendants(a_Descendants)
if (#a_Descendants == 0) then
return;
end
cf:write("
");
for i, desc in ipairs(a_Descendants) do
cf:write("
\n");
end
local ClassName = a_ClassAPI.Name;
-- 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, [[ Class
]], a_ClassAPI.Name, [[
Contents
]]);
local HasInheritance = ((#a_ClassAPI.Descendants > 0) or (a_ClassAPI.Inherits ~= nil));
local HasConstants = (#a_ClassAPI.Constants > 0) or (a_ClassAPI.NumConstantsInGroups > 0);
local HasFunctions = (#a_ClassAPI.Functions > 0);
local HasVariables = (#a_ClassAPI.Variables > 0);
for idx, cls in ipairs(InheritanceChain) do
HasConstants = HasConstants or (#cls.Constants > 0) or (cls.NumConstantsInGroupsForDescendants > 0);
HasFunctions = HasFunctions or (#cls.Functions > 0);
HasVariables = HasVariables or (#cls.Variables > 0);
end
-- Write the table of contents:
if (HasInheritance) then
cf:write("
\n");
WriteConstants(a_ClassAPI.Constants, a_ClassAPI.ConstantGroups, a_ClassAPI.NumConstantsInGroups, nil);
g_Stats.NumTotalConstants = g_Stats.NumTotalConstants + #a_ClassAPI.Constants + (a_ClassAPI.NumConstantsInGroups or 0);
for i, cls in ipairs(InheritanceChain) do
WriteConstants(cls.Constants, cls.ConstantGroups, cls.NumConstantsInGroupsForDescendants, cls.Name);
end;
end;
-- Write the member variables:
if (HasVariables) then
cf:write("
\n");
WriteVariables(a_ClassAPI.Variables, nil);
g_Stats.NumTotalVariables = g_Stats.NumTotalVariables + #a_ClassAPI.Variables;
for i, cls in ipairs(InheritanceChain) do
WriteVariables(cls.Variables, cls.Name);
end;
end
-- Write the functions, including the inherited ones:
if (HasFunctions) then
cf:write("
\n");
WriteFunctions(a_ClassAPI.Functions, nil);
g_Stats.NumTotalFunctions = g_Stats.NumTotalFunctions + #a_ClassAPI.Functions;
for i, cls in ipairs(InheritanceChain) do
WriteFunctions(cls.Functions, cls.Name);
end
end
-- Write the additional infos:
if (a_ClassAPI.AdditionalInfo ~= nil) then
for i, additional in ipairs(a_ClassAPI.AdditionalInfo) do
cf:write("
The default name for the callback function is ");
f:write(a_Hook.DefaultFnName, ". It has the following signature:\n");
f:write("
function ", HookName, "(");
if (a_Hook.Params == nil) then
a_Hook.Params = {};
end
for i, param in ipairs(a_Hook.Params) do
if (i > 1) then
f:write(", ");
end
f:write(param.Name);
end
f:write(")
\n
Parameters:
\n
Name
Type
Notes
\n");
for i, param in ipairs(a_Hook.Params) do
f:write("
\n\n");
local Examples = a_Hook.CodeExamples or {};
for i, example in ipairs(Examples) do
f:write("
", (example.Title or "missing Title"), "
\n");
f:write("
", (example.Desc or "missing Desc"), "
\n");
f:write("
", (example.Code or "missing Code"), "\n
\n\n");
end
f:write([[
]]);
f:close();
end
--- Writes a list of undocumented objects into a file
function ListUndocumentedObjects(API, UndocumentedHooks)
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));
local HasVariables = ((cls.UndocumentedVariables ~= nil) and (#cls.UndocumentedVariables > 0));
g_Stats.NumUndocumentedFunctions = g_Stats.NumUndocumentedFunctions + #cls.UndocumentedFunctions;
g_Stats.NumUndocumentedConstants = g_Stats.NumUndocumentedConstants + #cls.UndocumentedConstants;
g_Stats.NumUndocumentedVariables = g_Stats.NumUndocumentedVariables + #cls.UndocumentedVariables;
if (HasFunctions or HasConstants or HasVariables) 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.UndocumentedFunctions[]
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.UndocumentedConstants[]
f:write("\t\t\t},\n\n");
end
if (HasVariables) then
f:write("\t\t\tVariables =\n\t\t\t{\n");
table.sort(cls.UndocumentedVariables);
for j, vn in ipairs(cls.UndocumentedVariables) do
f:write("\t\t\t\t" .. vn .. " = { Type = \"\", Notes = \"\" },\n");
end -- for j, fn - cls.UndocumentedVariables[]
f:write("\t\t\t},\n\n");
end
if (HasFunctions or HasConstants or HasVariables) then
f:write("\t\t},\n\n");
end
end -- for i, cls - API[]
f:write("\t},\n");
if (#UndocumentedHooks > 0) then
f:write("\n\tHooks =\n\t{\n");
for i, hook in ipairs(UndocumentedHooks) do
if (i > 1) then
f:write("\n");
end
f:write("\t\t" .. hook .. " =\n\t\t{\n");
f:write("\t\t\tCalledWhen = \"\",\n");
f:write("\t\t\tDefaultFnName = \"On\", -- also used as pagename\n");
f:write("\t\t\tDesc = [[\n\t\t\t\t\n\t\t\t]],\n");
f:write("\t\t\tParams =\n\t\t\t{\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t\t{ Name = \"\", Type = \"\", Notes = \"\" },\n");
f:write("\t\t\t},\n");
f:write("\t\t\tReturns = [[\n\t\t\t\t\n\t\t\t]],\n");
f:write("\t\t}, -- " .. hook .. "\n");
end
f:write("\t},\n");
end
f:write("}\n\n\n\n");
f:close();
end
g_Stats.NumUndocumentedHooks = #UndocumentedHooks;
end
--- Lists the API objects that are documented but not available in the API:
function ListUnexportedObjects()
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
end
function ListMissingPages()
local MissingPages = {};
local NumLinks = 0;
for PageName, Referrers in pairs(g_TrackedPages) do
NumLinks = NumLinks + 1;
if not(cFile:Exists("API/" .. PageName .. ".html")) then
table.insert(MissingPages, {Name = PageName, Refs = Referrers} );
end
end;
g_Stats.NumTrackedLinks = NumLinks;
g_TrackedPages = {};
if (#MissingPages == 0) then
-- No missing pages, congratulations!
return;
end
-- Sort the pages by name:
table.sort(MissingPages,
function (Page1, Page2)
return (Page1.Name < Page2.Name);
end
);
-- Output the pages:
local f, err = io.open("API/_missingPages.txt", "w");
if (f == nil) then
LOGWARNING("Cannot open _missingPages.txt for writing: '" .. err .. "'. There are " .. #MissingPages .. " pages missing.");
return;
end
for idx, pg in ipairs(MissingPages) do
f:write(pg.Name .. ":\n");
-- Sort and output the referrers:
table.sort(pg.Refs);
f:write("\t" .. table.concat(pg.Refs, "\n\t"));
f:write("\n\n");
end
f:close();
g_Stats.NumInvalidLinks = #MissingPages;
end
--- Writes the documentation statistics (in g_Stats) into the given HTML file
function WriteStats(f)
local function ExportMeter(a_Percent)
local Color;
if (a_Percent > 99) then
Color = "green";
elseif (a_Percent > 50) then
Color = "orange";
else
Color = "red";
end
local meter = {
"\n",
"