--[[ pandoc.lua Copyright © 2017–2019 Albert Krewinkel Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ]] --- -- Lua functions for pandoc scripts. -- -- @author Albert Krewinkel -- @copyright © 2017–2019 Albert Krewinkel -- @license MIT local M = {} -- Re-export bundled modules M.List = require 'pandoc.List' M.mediabag = require 'pandoc.mediabag' M.system = require 'pandoc.system' M.types = require 'pandoc.types' M.utils = require 'pandoc.utils' M.text = require 'text' -- Local names for modules which this module depends on. local List = M.List local utils = M.utils ------------------------------------------------------------------------ -- Accessor objects -- -- Create metatables which allow to access numerical indices via accessor -- methods. -- @section -- @local --- Create a new indexing function. -- @param template function template -- @param indices list of indices, starting with the most deeply nested -- @return newly created function -- @local function make_indexing_function(template, ...) local indices = {...} local loadstring = loadstring or load local bracketed = {} for i = 1, #indices do local idx = indices[#indices - i + 1] bracketed[i] = type(idx) == 'number' and string.format('[%d]', idx) or string.format('.%s', idx) end local fnstr = string.format('return ' .. template, table.concat(bracketed)) return assert(loadstring(fnstr))() end --- Create accessor functions using a function template. -- @param fn_template function template in which '%s' is replacd with indices -- @param accessors list of accessors -- @return mapping from accessor names to accessor functions -- @local local function create_accessor_functions (fn_template, accessors) local res = {} function add_accessors(acc, ...) if type(acc) == 'string' then res[acc] = make_indexing_function(fn_template, ...) elseif type(acc) == 'table' and #acc == 0 and next(acc) then -- Named substructure: the given names are accessed via the substructure, -- but the accessors are also added to the result table, enabling direct -- access from the parent element. Mainly used for `attr`. local name, substructure = next(acc) res[name] = make_indexing_function(fn_template, ...) for _, subname in ipairs(substructure) do res[subname] = make_indexing_function(fn_template, subname, ...) end else for i = 1, #(acc or {}) do add_accessors(acc[i], i, ...) end end end add_accessors(accessors) return res end --- Get list of top-level fields from field descriptor table. -- E.g.: `top_level_fields{'foo', {bar='baz'}, {'qux', 'quux'}}` -- gives {'foo, 'bar', 'qux', 'quux'} -- @local local function top_level_fields (fields) local result = List:new{} for _, v in ipairs(fields) do if type(v) == 'string' then table.insert(result, v) elseif type(v) == 'table' and #v == 0 and next(v) then table.insert(result, (next(v))) else result:extend(top_level_fields(v)) end end return result end --- Creates a function which behaves like next, but respects field names. -- @local local function make_next_function (fields) local field_indices = {} for i, f in ipairs(fields) do field_indices[f] = i end return function (t, field) local raw_idx = field == nil and 0 or field_indices[field] local next_field = fields[raw_idx + 1] return next_field, t[next_field] end end --- Create a new table which allows to access numerical indices via accessor -- functions. -- @local local function create_accessor_behavior (tag, accessors) local behavior = {tag = tag} behavior.getters = create_accessor_functions( 'function (x) return x.c%s end', accessors ) behavior.setters = create_accessor_functions( 'function (x, v) x.c%s = v end', accessors ) behavior.__eq = utils.equals behavior.__index = function(t, k) if getmetatable(t).getters[k] then return getmetatable(t).getters[k](t) elseif k == "t" then return getmetatable(t)["tag"] else return getmetatable(t)[k] end end behavior.__newindex = function(t, k, v) if getmetatable(t).setters[k] then getmetatable(t).setters[k](t, v) else rawset(t, k, v) end end behavior.__pairs = function (t) if accessors == nil then return next, t end local iterable_fields = type(accessors) == 'string' and {accessors} or top_level_fields(accessors) return make_next_function(iterable_fields), t end return behavior end ------------------------------------------------------------------------ -- The base class for types -- @type Type -- @local local Type = {} Type.name = 'Type' Type.__index = Type Type.behavior = { __type = Type, new = function (obj) obj = obj or {} setmetatable(obj, self) return obj end } Type.behavior.__index = Type.behavior --- Set a new behavior for the type, inheriting that of the parent type if none --- is specified explicitly -- @param behavior the behavior object for this type. -- @local function Type:set_behavior (behavior) behavior = behavior or {} behavior.__index = rawget(behavior, '__index') or behavior behavior.__type = self if not getmetatable(behavior) and getmetatable(self) then setmetatable(behavior, getmetatable(self).behavior) end self.behavior = behavior end --- Create a new subtype, using the given table as base. -- @param name name of the new type -- @param[opt] behavior behavioral object for the new type. -- @return a new type -- @local function Type:make_subtype(name, behavior) local newtype = setmetatable({}, self) newtype.name = name newtype.__index = newtype newtype:set_behavior(behavior) return newtype end ------------------------------------------------------------------------ -- The base class for pandoc's AST elements. -- @type AstElement -- @local local AstElement = Type:make_subtype 'AstElement' AstElement.__call = function(t, ...) local success, ret = pcall(t.new, t, ...) if success then return setmetatable(ret, t.behavior) else error(string.format('Constructor for %s failed: %s\n', t.name, ret)) end end --- Make a new subtype which constructs a new value when called. -- @local function AstElement:make_subtype(...) local newtype = Type.make_subtype(self, ...) newtype.__call = self.__call return newtype end --- Create a new constructor -- @local -- @param tag Tag used to identify the constructor -- @param fn Function to be called when constructing a new element -- @param accessors names to use as accessors for numerical fields -- @return function that constructs a new element function AstElement:create_constructor(tag, fn, accessors) local constr = self:make_subtype(tag, create_accessor_behavior(tag, accessors)) function constr:new(...) return setmetatable(fn(...), self.behavior) end self.constructor = self.constructor or {} self.constructor[tag] = constr return constr end --- Convert AstElement input into a list if necessary. -- @local local function ensureList (x) if x.tag then -- Lists are not tagged, but all elements are return List:new{x} else return List:new(x) end end --- Ensure a given object is an Inline element, or convert it into one. -- @local local function ensureInlineList (x) if type(x) == 'string' then return List:new{M.Str(x)} else return ensureList(x) end end --- Ensure that the given object is a definition pair, convert if necessary. -- @local local function ensureDefinitionPairs (pair) local inlines = ensureInlineList(pair[1] or {}) local blocks = ensureList(pair[2] or {}):map(ensureList) return {inlines, blocks} end --- Split a string into it's words, using whitespace as separators. local function words (str) local ws = {} for w in str:gmatch("([^%s]+)") do ws[#ws + 1] = w end return ws end --- Try hard to turn the arguments into an Attr object. local function ensureAttr(attr) if type(attr) == 'table' then if #attr > 0 then return M.Attr(table.unpack(attr)) end -- assume HTML-like key-value pairs local ident = attr.id or '' local classes = words(attr.class or '') local attributes = attr attributes.id = nil attributes.class = nil return M.Attr(ident, classes, attributes) elseif attr == nil then return M.Attr() elseif type(attr) == 'string' then -- treat argument as ID return M.Attr(attr) end -- print(arg, ...) error('Could not convert to Attr') end ------------------------------------------------------------------------ --- Pandoc Document -- @section document --- A complete pandoc document -- @function Pandoc -- @tparam {Block,...} blocks document content -- @tparam[opt] Meta meta document meta data M.Pandoc = AstElement:make_subtype'Pandoc' M.Pandoc.behavior.clone = M.types.clone.Pandoc function M.Pandoc:new (blocks, meta) return { blocks = ensureList(blocks), meta = meta or {}, } end -- DEPRECATED synonym: M.Doc = M.Pandoc ------------------------------------------------------------------------ -- Meta -- @section Meta --- Create a new Meta object. It sets the metatable of the given table to --- `Meta`. -- @function Meta -- @tparam meta table table containing document meta information M.Meta = AstElement:make_subtype'Meta' M.Meta.behavior.clone = M.types.clone.Meta function M.Meta:new (meta) return meta end ------------------------------------------------------------------------ -- MetaValue -- @section MetaValue M.MetaValue = AstElement:make_subtype('MetaValue') M.MetaValue.behavior.clone = M.types.clone.MetaValue --- Meta blocks -- @function MetaBlocks -- @tparam {Block,...} blocks blocks M.MetaBlocks = M.MetaValue:create_constructor( 'MetaBlocks', function (content) return ensureList(content) end ) --- Meta inlines -- @function MetaInlines -- @tparam {Inline,...} inlines inlines M.MetaInlines = M.MetaValue:create_constructor( 'MetaInlines', function (content) return ensureInlineList(content) end ) --- Meta list -- @function MetaList -- @tparam {MetaValue,...} meta_values list of meta values M.MetaList = M.MetaValue:create_constructor( 'MetaList', function (content) if content.tag == 'MetaList' then return content end return ensureList(content) end ) for k, v in pairs(List) do M.MetaList.behavior[k] = v end --- Meta map -- @function MetaMap -- @tparam table key_value_map a string-indexed map of meta values M.MetaMap = M.MetaValue:create_constructor( "MetaMap", function (mm) return mm end ) --- Creates string to be used in meta data. -- Does nothing, lua strings are meta strings. -- @function MetaString -- @tparam string str string value function M.MetaString(str) return str end --- Creates boolean to be used in meta data. -- Does nothing, lua booleans are meta booleans. -- @function MetaBool -- @tparam boolean bool boolean value function M.MetaBool(bool) return bool end ------------------------------------------------------------------------ -- Blocks -- @section Block --- Block elements M.Block = AstElement:make_subtype'Block' M.Block.behavior.clone = M.types.clone.Block --- Creates a block quote element -- @function BlockQuote -- @tparam {Block,...} content block content -- @treturn Block block quote element M.BlockQuote = M.Block:create_constructor( "BlockQuote", function(content) return {c = ensureList(content)} end, "content" ) --- Creates a bullet (i.e. unordered) list. -- @function BulletList -- @tparam {{Block,...},...} content list of items -- @treturn Block bullet list element M.BulletList = M.Block:create_constructor( "BulletList", function(content) return {c = ensureList(content):map(ensureList)} end, "content" ) --- Creates a code block element -- @function CodeBlock -- @tparam string text code string -- @tparam[opt] Attr attr element attributes -- @treturn Block code block element M.CodeBlock = M.Block:create_constructor( "CodeBlock", function(text, attr) return {c = {ensureAttr(attr), text}} end, {{attr = {"identifier", "classes", "attributes"}}, "text"} ) --- Creates a definition list, containing terms and their explanation. -- @function DefinitionList -- @tparam {{{Inline,...},{{Block,...}}},...} content list of items -- @treturn Block definition list element M.DefinitionList = M.Block:create_constructor( "DefinitionList", function(content) return {c = ensureList(content):map(ensureDefinitionPairs)} end, "content" ) --- Creates a div element -- @function Div -- @tparam {Block,...} content block content -- @tparam[opt] Attr attr element attributes -- @treturn Block div element M.Div = M.Block:create_constructor( "Div", function(content, attr) return {c = {ensureAttr(attr), ensureList(content)}} end, {{attr = {"identifier", "classes", "attributes"}}, "content"} ) --- Creates a header element. -- @function Header -- @tparam int level header level -- @tparam {Inline,...} content inline content -- @tparam[opt] Attr attr element attributes -- @treturn Block header element M.Header = M.Block:create_constructor( "Header", function(level, content, attr) return {c = {level, ensureAttr(attr), ensureInlineList(content)}} end, {"level", {attr = {"identifier", "classes", "attributes"}}, "content"} ) --- Creates a horizontal rule. -- @function HorizontalRule -- @treturn Block horizontal rule M.HorizontalRule = M.Block:create_constructor( "HorizontalRule", function() return {} end ) --- Creates a line block element. -- @function LineBlock -- @tparam {{Inline,...},...} content inline content -- @treturn Block line block element M.LineBlock = M.Block:create_constructor( "LineBlock", function(content) return {c = ensureList(content):map(ensureInlineList)} end, "content" ) --- Creates a null element. -- @function Null -- @treturn Block null element M.Null = M.Block:create_constructor( "Null", function() return {} end ) --- Creates an ordered list. -- @function OrderedList -- @tparam {{Block,...},...} items list items -- @param[opt] listAttributes list parameters -- @treturn Block ordered list element M.OrderedList = M.Block:create_constructor( "OrderedList", function(items, listAttributes) listAttributes = listAttributes or M.ListAttributes() return {c = {listAttributes, ensureList(items):map(ensureList)}} end, {{listAttributes = {"start", "style", "delimiter"}}, "content"} ) --- Creates a para element. -- @function Para -- @tparam {Inline,...} content inline content -- @treturn Block paragraph element M.Para = M.Block:create_constructor( "Para", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a plain element. -- @function Plain -- @tparam {Inline,...} content inline content -- @treturn Block plain element M.Plain = M.Block:create_constructor( "Plain", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a raw content block of the specified format. -- @function RawBlock -- @tparam string format format of content -- @tparam string text string content -- @treturn Block raw block element M.RawBlock = M.Block:create_constructor( "RawBlock", function(format, text) return {c = {format, text}} end, {"format", "text"} ) --- Creates a table element. -- @function Table -- @tparam Attr attr attributes -- @tparam Caption caption table caption -- @tparam {ColSpec,...} colspecs column alignments and widths -- @tparam TableHead head table head -- @tparam {TableBody,..} bodies table bodies -- @treturn TableFoot foot table foot M.Table = M.Block:create_constructor( "Table", function(attr, caption, colspecs, head, bodies, foot) return { c = { attr, caption, List:new(colspecs), head, List:new(bodies), foot } } end, {"attr", "caption", "colspecs", "head", "bodies", "foot"} ) ------------------------------------------------------------------------ -- Inline -- @section Inline --- Inline element class M.Inline = AstElement:make_subtype'Inline' M.Inline.behavior.clone = M.types.clone.Inline --- Creates a Cite inline element -- @function Cite -- @tparam {Inline,...} content List of inlines -- @tparam {Citation,...} citations List of citations -- @treturn Inline citations element M.Cite = M.Inline:create_constructor( "Cite", function(content, citations) return {c = {ensureList(citations), ensureInlineList(content)}} end, {"citations", "content"} ) --- Creates a Code inline element -- @function Code -- @tparam string text code string -- @tparam[opt] Attr attr additional attributes -- @treturn Inline code element M.Code = M.Inline:create_constructor( "Code", function(text, attr) return {c = {ensureAttr(attr), text}} end, {{attr = {"identifier", "classes", "attributes"}}, "text"} ) --- Creates an inline element representing emphasised text. -- @function Emph -- @tparam {Inline,..} content inline content -- @treturn Inline emphasis element M.Emph = M.Inline:create_constructor( "Emph", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a Image inline element -- @function Image -- @tparam {Inline,..} caption text used to describe the image -- @tparam string src path to the image file -- @tparam[opt] string title brief image description -- @tparam[opt] Attr attr additional attributes -- @treturn Inline image element M.Image = M.Inline:create_constructor( "Image", function(caption, src, title, attr) title = title or "" return {c = {ensureAttr(attr), ensureInlineList(caption), {src, title}}} end, {{attr = {"identifier", "classes", "attributes"}}, "caption", {"src", "title"}} ) --- Create a LineBreak inline element -- @function LineBreak -- @treturn Inline linebreak element M.LineBreak = M.Inline:create_constructor( "LineBreak", function() return {} end ) --- Creates a link inline element, usually a hyperlink. -- @function Link -- @tparam {Inline,..} content text for this link -- @tparam string target the link target -- @tparam[opt] string title brief link description -- @tparam[opt] Attr attr additional attributes -- @treturn Inline image element M.Link = M.Inline:create_constructor( "Link", function(content, target, title, attr) title = title or "" attr = ensureAttr(attr) return {c = {attr, ensureInlineList(content), {target, title}}} end, {{attr = {"identifier", "classes", "attributes"}}, "content", {"target", "title"}} ) --- Creates a Math element, either inline or displayed. -- @function Math -- @tparam "InlineMath"|"DisplayMath" mathtype rendering specifier -- @tparam string text Math content -- @treturn Inline Math element M.Math = M.Inline:create_constructor( "Math", function(mathtype, text) return {c = {mathtype, text}} end, {"mathtype", "text"} ) --- Creates a DisplayMath element (DEPRECATED). -- @function DisplayMath -- @tparam string text Math content -- @treturn Inline Math element M.DisplayMath = M.Inline:create_constructor( "DisplayMath", function(text) return M.Math("DisplayMath", text) end, {"mathtype", "text"} ) --- Creates an InlineMath inline element (DEPRECATED). -- @function InlineMath -- @tparam string text Math content -- @treturn Inline Math element M.InlineMath = M.Inline:create_constructor( "InlineMath", function(text) return M.Math("InlineMath", text) end, {"mathtype", "text"} ) --- Creates a Note inline element -- @function Note -- @tparam {Block,...} content footnote block content M.Note = M.Inline:create_constructor( "Note", function(content) return {c = ensureList(content)} end, "content" ) --- Creates a Quoted inline element given the quote type and quoted content. -- @function Quoted -- @tparam "DoubleQuote"|"SingleQuote" quotetype type of quotes to be used -- @tparam {Inline,..} content inline content -- @treturn Inline quoted element M.Quoted = M.Inline:create_constructor( "Quoted", function(quotetype, content) return {c = {quotetype, ensureInlineList(content)}} end, {"quotetype", "content"} ) --- Creates a single-quoted inline element (DEPRECATED). -- @function SingleQuoted -- @tparam {Inline,..} content inline content -- @treturn Inline quoted element -- @see Quoted M.SingleQuoted = M.Inline:create_constructor( "SingleQuoted", function(content) return M.Quoted(M.SingleQuote, content) end, {"quotetype", "content"} ) --- Creates a single-quoted inline element (DEPRECATED). -- @function DoubleQuoted -- @tparam {Inline,..} content inline content -- @treturn Inline quoted element -- @see Quoted M.DoubleQuoted = M.Inline:create_constructor( "DoubleQuoted", function(content) return M.Quoted("DoubleQuote", content) end, {"quotetype", "content"} ) --- Creates a RawInline inline element -- @function RawInline -- @tparam string format format of the contents -- @tparam string text string content -- @treturn Inline raw inline element M.RawInline = M.Inline:create_constructor( "RawInline", function(format, text) return {c = {format, text}} end, {"format", "text"} ) --- Creates text rendered in small caps -- @function SmallCaps -- @tparam {Inline,..} content inline content -- @treturn Inline smallcaps element M.SmallCaps = M.Inline:create_constructor( "SmallCaps", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a SoftBreak inline element. -- @function SoftBreak -- @treturn Inline softbreak element M.SoftBreak = M.Inline:create_constructor( "SoftBreak", function() return {} end ) --- Create a Space inline element -- @function Space -- @treturn Inline space element M.Space = M.Inline:create_constructor( "Space", function() return {} end ) --- Creates a Span inline element -- @function Span -- @tparam {Inline,..} content inline content -- @tparam[opt] Attr attr additional attributes -- @treturn Inline span element M.Span = M.Inline:create_constructor( "Span", function(content, attr) return {c = {ensureAttr(attr), ensureInlineList(content)}} end, {{attr = {"identifier", "classes", "attributes"}}, "content"} ) --- Creates a Str inline element -- @function Str -- @tparam string text content -- @treturn Inline string element M.Str = M.Inline:create_constructor( "Str", function(text) return {c = text} end, "text" ) --- Creates text which is striked out. -- @function Strikeout -- @tparam {Inline,..} content inline content -- @treturn Inline strikeout element M.Strikeout = M.Inline:create_constructor( "Strikeout", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a Strong element, whose text is usually displayed in a bold font. -- @function Strong -- @tparam {Inline,..} content inline content -- @treturn Inline strong element M.Strong = M.Inline:create_constructor( "Strong", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a Subscript inline element -- @function Subscript -- @tparam {Inline,..} content inline content -- @treturn Inline subscript element M.Subscript = M.Inline:create_constructor( "Subscript", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates a Superscript inline element -- @function Superscript -- @tparam {Inline,..} content inline content -- @treturn Inline superscript element M.Superscript = M.Inline:create_constructor( "Superscript", function(content) return {c = ensureInlineList(content)} end, "content" ) --- Creates an Underline inline element -- @function Underline -- @tparam {Inline,..} content inline content -- @treturn Inline underline element M.Underline = M.Inline:create_constructor( "Underline", function(content) return {c = ensureInlineList(content)} end, "content" ) ------------------------------------------------------------------------ -- Element components -- @section components --- Check if the first element of a pair matches the given value. -- @param x key value to be checked -- @return function returning true iff first element of its argument matches x -- @local local function assoc_key_equals (x) return function (y) return y[1] == x end end --- Lookup a value in an associative list -- @function lookup -- @local -- @tparam {{key, value},...} alist associative list -- @param key key for which the associated value is to be looked up local function lookup(alist, key) return (List.find_if(alist, assoc_key_equals(key)) or {})[2] end --- Return an iterator which returns key-value pairs of an associative list. -- @function apairs -- @local -- @tparam {{key, value},...} alist associative list local apairs = function (alist) local i = 1 local cur function nxt () cur = rawget(alist, i) if cur then i = i + 1 return cur[1], cur[2] end return nil end return nxt, nil, nil end --- AttributeList, a metatable to allow table-like access to attribute lists -- represented by associative lists. -- @local local AttributeList = { __index = function (t, k) if type(k) == "number" then return rawget(t, k) else return lookup(t, k) end end, __newindex = function (t, k, v) local cur, idx = List.find_if(t, assoc_key_equals(k)) if v == nil and not cur then -- deleted key does not exists in list return elseif v == nil then table.remove(t, idx) elseif cur then cur[2] = v elseif type(k) == "number" then rawset(t, k, v) else rawset(t, #t + 1, {k, v}) end end, __pairs = apairs } --- Convert a table to an associative list. The order of key-value pairs in the -- alist is undefined. The table should either contain no numeric keys or -- already be an associative list. -- @local -- @tparam table tbl associative list or table without numeric keys. -- @treturn table associative list local to_alist = function (tbl) if #tbl ~= 0 or next(tbl) == nil then -- probably already an alist return tbl end local alist = {} local i = 1 for k, v in pairs(tbl) do alist[i] = {k, v} i = i + 1 end return alist end -- Attr --- Create a new set of attributes (Attr). -- @function Attr -- @tparam[opt] string identifier element identifier -- @tparam[opt] {string,...} classes element classes -- @tparam[opt] table attributes table containing string keys and values -- @return element attributes M.Attr = AstElement:make_subtype'Attr' function M.Attr:new (identifier, classes, attributes) identifier = identifier or '' classes = ensureList(classes or {}) attributes = setmetatable(to_alist(attributes or {}), AttributeList) return setmetatable({identifier, classes, attributes}, self.behavior) end M.Attr.behavior.clone = M.types.clone.Attr M.Attr.behavior.tag = 'Attr' M.Attr.behavior._field_names = {identifier = 1, classes = 2, attributes = 3} M.Attr.behavior.__eq = utils.equals M.Attr.behavior.__index = function(t, k) return (k == 't' and t.tag) or rawget(t, getmetatable(t)._field_names[k]) or getmetatable(t)[k] end M.Attr.behavior.__newindex = function(t, k, v) if k == 'attributes' then rawset(t, 3, setmetatable(to_alist(v or {}), AttributeList)) elseif getmetatable(t)._field_names[k] then rawset(t, getmetatable(t)._field_names[k], v) else rawset(t, k, v) end end M.Attr.behavior.__pairs = function(t) local field_names = M.Attr.behavior._field_names local fields = {} for name, i in pairs(field_names) do fields[i] = name end return make_next_function(fields), t, nil end -- Monkey-patch setters for `attr` fields to be more forgiving in the input that -- results in a valid Attr value. function augment_attr_setter (setters) if setters.attr then local orig = setters.attr setters.attr = function(k, v) orig(k, ensureAttr(v)) end end end for _, blk in pairs(M.Block.constructor) do augment_attr_setter(blk.behavior.setters) end for _, inln in pairs(M.Inline.constructor) do augment_attr_setter(inln.behavior.setters) end -- Citation M.Citation = AstElement:make_subtype'Citation' M.Citation.behavior.clone = M.types.clone.Citation --- Creates a single citation. -- @function Citation -- @tparam string id citation identifier (like a bibtex key) -- @tparam AuthorInText|SuppressAuthor|NormalCitation mode citation mode -- @tparam[opt] {Inline,...} prefix citation prefix -- @tparam[opt] {Inline,...} suffix citation suffix -- @tparam[opt] int note_num note number -- @tparam[opt] int hash hash number function M.Citation:new (id, mode, prefix, suffix, note_num, hash) return { id = id, mode = mode, prefix = ensureList(prefix or {}), suffix = ensureList(suffix or {}), note_num = note_num or 0, hash = hash or 0, } end -- ListAttributes M.ListAttributes = AstElement:make_subtype 'ListAttributes' M.ListAttributes.behavior.clone = M.types.clone.ListAttributes --- Creates a set of list attributes. -- @function ListAttributes -- @tparam[opt] integer start number of the first list item -- @tparam[opt] string style style used for list numbering -- @tparam[opt] DefaultDelim|Period|OneParen|TwoParens delimiter delimiter of list numbers -- @treturn table list attributes table function M.ListAttributes:new (start, style, delimiter) start = start or 1 style = style or 'DefaultStyle' delimiter = delimiter or 'DefaultDelim' return {start, style, delimiter} end M.ListAttributes.behavior._field_names = {start = 1, style = 2, delimiter = 3} M.ListAttributes.behavior.__eq = utils.equals M.ListAttributes.behavior.__index = function (t, k) return rawget(t, getmetatable(t)._field_names[k]) or getmetatable(t)[k] end M.ListAttributes.behavior.__newindex = function (t, k, v) if getmetatable(t)._field_names[k] then rawset(t, getmetatable(t)._field_names[k], v) else rawset(t, k, v) end end M.ListAttributes.behavior.__pairs = function(t) local field_names = M.ListAttributes.behavior._field_names local fields = {} for name, i in pairs(field_names) do fields[i] = name end return make_next_function(fields), t, nil end ------------------------------------------------------------------------ -- Constants -- @section constants --- Author name is mentioned in the text. -- @see Citation -- @see Cite M.AuthorInText = "AuthorInText" --- Author name is suppressed. -- @see Citation -- @see Cite M.SuppressAuthor = "SuppressAuthor" --- Default citation style is used. -- @see Citation -- @see Cite M.NormalCitation = "NormalCitation" --- Table cells aligned left. -- @see Table M.AlignLeft = "AlignLeft" --- Table cells right-aligned. -- @see Table M.AlignRight = "AlignRight" --- Table cell content is centered. -- @see Table M.AlignCenter = "AlignCenter" --- Table cells are alignment is unaltered. -- @see Table M.AlignDefault = "AlignDefault" --- Default list number delimiters are used. -- @see OrderedList M.DefaultDelim = "DefaultDelim" --- List numbers are delimited by a period. -- @see OrderedList M.Period = "Period" --- List numbers are delimited by a single parenthesis. -- @see OrderedList M.OneParen = "OneParen" --- List numbers are delimited by a double parentheses. -- @see OrderedList M.TwoParens = "TwoParens" --- List are numbered in the default style -- @see OrderedList M.DefaultStyle = "DefaultStyle" --- List items are numbered as examples. -- @see OrderedList M.Example = "Example" --- List are numbered using decimal integers. -- @see OrderedList M.Decimal = "Decimal" --- List are numbered using lower-case roman numerals. -- @see OrderedList M.LowerRoman = "LowerRoman" --- List are numbered using upper-case roman numerals -- @see OrderedList M.UpperRoman = "UpperRoman" --- List are numbered using lower-case alphabetic characters. -- @see OrderedList M.LowerAlpha = "LowerAlpha" --- List are numbered using upper-case alphabetic characters. -- @see OrderedList M.UpperAlpha = "UpperAlpha" ------------------------------------------------------------------------ -- Functions which have moved to different modules M.sha1 = utils.sha1 return M