local remap_comb = require'remap_comb' local stretchy = require'stretchy' local properties = node.get_properties_table() local kern_t, glue_t = node.id'kern', node.id'glue' local noad_t, accent_t, style_t, choice_t = node.id'noad', node.id'accent', node.id'style', node.id'choice' local radical_t, fraction_t, fence_t = node.id'radical', node.id'fraction', node.id'fence' local math_char_t, sub_box_t, sub_mlist_t = node.id'math_char', node.id'sub_box', node.id'sub_mlist' local noad_sub = node.subtypes'noad' local radical_sub = node.subtypes'radical' local fence_sub = node.subtypes'fence' local nodes_to_table local function sub_style(s) return s//4*2+5 end local function sup_style(s) return s//4*2+4+s%2 end -- We ignore large_... since they aren't used for modern fonts local function delim_to_table(delim) if not delim then return end local props = properties[delim] props = props and props.mathml_table if props then return props end local fam = delim.small_fam return {[0] = 'mo', utf8.char(delim.small_char), ['tex:family'] = fam ~= 0 and fam or nil, stretchy = not stretchy[delim.small_char] or nil } end -- Like kernel_to_table but always a math_char_t. Also creating a mo and potentially remapping to handle combining chars local function acc_to_table(acc, cur_style, stretch) if not acc then return end local props = properties[acc] props = props and props.mathml_table if props then return props end if acc.id ~= math_char_t then error'confusion' end local char = utf8.char(acc.char) char = remap_comb[char] or char local fam = acc.fam if stretch ~= not stretchy[char] then -- Handle nil gracefully in stretchy stretch = nil end return {[0] = 'mo', char, ['tex:family'] = fam ~= 0 and fam or nil, stretchy = stretch} end local function kernel_to_table(kernel, cur_style) if not kernel then return end local props = properties[kernel] props = props and props.mathml_table if props then return props end local id = kernel.id if id == math_char_t then local char = kernel.char local elem = char >= 0x30 and char < 0x39 and 'mn' or 'mi' local fam = kernel.fam return {[0] = elem, utf8.char(char), ['tex:family'] = fam ~= 0 and fam or nil, mathvariant = char < 0x10000 and 'normal' or nil } elseif id == sub_box_t then return {[0] = 'mi', {[0] = 'mglyph', ['tex:box'] = kernel.list}} elseif id == sub_mlist_t then return nodes_to_table(kernel.list, cur_style) else error'confusion' end end local function do_sub_sup(t, n, cur_style) local sub = kernel_to_table(n.sub, sub_style(cur_style)) local sup = kernel_to_table(n.sup, sup_style(cur_style)) if sub then if sup then return {[0] = 'msubsup', t, sub, sup} else return {[0] = 'msub', t, sub} end elseif sup then return {[0] = 'msup', t, sup} else return t end end local function noad_to_table(noad, sub, cur_style) local class = noad_sub[sub] local nucleus = kernel_to_table(noad.nucleus, class == 'over' and cur_style//2*2+1 or cur_style) if class == 'ord' then elseif class == 'opdisplaylimits' or class == 'oplimits' or class == 'opnolimits' or class == 'bin' or class == 'rel' or class == 'open' or class == 'close' or class == 'punct' or class == 'inner' then if nucleus[0] == 'mrow' then -- TODO else nucleus[0] = 'mo' if stretchy[nucleus[1]] then nucleus.stretchy = false end if nucleus.mathvariant == 'normal' then nucleus.mathvariant = nil end end nucleus['tex:class'] = class if (noad.sup or noad.sub) and (class == 'opdisplaylimits' or class == 'oplimits') then nucleus.movablelimits = class == 'opdisplaylimits' local sub = kernel_to_table(noad.sub, sub_style(cur_style)) local sup = kernel_to_table(noad.sup, sup_style(cur_style)) return {[0] = sup and (sub and 'munderover' or 'mover') or 'munder', nucleus, sub or sup, sub and sup, } end elseif class == 'under' then return {[0] = 'munder', nucleus, {[0] = 'mo', '_',}, } elseif class == 'over' then return {[0] = 'mover', nucleus, {[0] = 'mo', '\u{203E}',}, } elseif class == 'vcenter' then nucleus['tex:TODO'] = class else error[[confusion]] end return do_sub_sup(nucleus, noad, cur_style) end local function accent_to_table(accent, sub, cur_style) local nucleus = kernel_to_table(accent.nucleus, cur_style//2*2+1) local top_acc = acc_to_table(accent.accent, cur_style, sub & 1 == 1) local bot_acc = acc_to_table(accent.bot_accent, cur_style, sub & 2 == 2) return {[0] = top_acc and (bot_acc and 'munderover' or 'mover') or 'munder', nucleus, bot_acc or top_acc, bot_acc and top_acc, } end local style_table = { display = {displaystyle = "true", scriptlevel = "0"}, text = {displaystyle = "false", scriptlevel = "0"}, script = {displaystyle = "false", scriptlevel = "1"}, scriptscript = {displaystyle = "false", scriptlevel = "2"}, } style_table.crampeddisplay, style_table.crampedtext, style_table.crampedscript, style_table.crampedscriptscript = style_table.display, style_table.text, style_table.script, style_table.scriptscript local function radical_to_table(radical, sub, cur_style) local kind = radical_sub[sub] local nucleus = kernel_to_table(radical.nucleus, cur_style//2*2+1) local left = delim_to_table(radical.left) local elem if kind == 'radical' or kind == 'uradical' then -- FIXME: Check that this is really a square root elem = {[0] = 'msqrt', nucleus} elseif kind == 'uroot' then -- FIXME: Check that this is really a root elem = {[0] = 'msqrt', nucleus, kernel_to_table(radical.degree)} elseif kind == 'uunderdelimiter' then elem = {[0] = 'munder', left, nucleus} elseif kind == 'uoverdelimiter' then elem = {[0] = 'mover', left, nucleus} elseif kind == 'udelimiterunder' then elem = {[0] = 'munder', nucleus, left} elseif kind == 'udelimiterover' then elem = {[0] = 'mover', nucleus, left} else error[[confusion]] end return do_sub_sup(elem, radical, cur_style) end local function fraction_to_table(fraction, sub, cur_style) local num = kernel_to_table(fraction.num, sup_style(cur_style)) local denom = kernel_to_table(fraction.denom, sub_style(cur_style)) local left = delim_to_table(fraction.left) local right = delim_to_table(fraction.right) local mfrac = {[0] = 'mfrac', linethickness = fraction.width and fraction.width == 0 and 0 or nil, bevelled = fraction.middle and "true" or nil, num, denom, } if left then return {[0] = 'mrow', left, mfrac, right, -- might be nil } elseif right then return {[0] = 'mrow', mfrac, right, } else return mfrac end end local function fence_to_table(fence, sub, cur_style) local delim = delim_to_table(fence.delimiter) delim.fence = 'true' return delim end local function space_to_table(amount, sub, cur_style) if amount == 0 then return end -- FIXME: What does MathML do in subscripts etc.? Probably we have to "unscale" in the non mu case... if sub == 99 then -- TODO magic number return {[0] = 'mspace', width = string.format("%.2fem", amount/18)} else return {[0] = 'mspace', width = string.format("%.2fem", amount/tex.sp'1em')} end end function nodes_to_table(head, cur_style) local t = {[0] = "mrow"} local result = t local nonscript for n, id, sub in node.traverse(head) do local props = properties[n] props = props and props.mathml_table if props then t[#t+1] = props elseif id == noad_t then t[#t+1] = noad_to_table(n, sub, cur_style) elseif id == accent_t then t[#t+1] = accent_to_table(n, sub, cur_style) elseif id == style_t then if #t ~= 0 then local new_t = {[0] = 'mstyle'} t[#t+1] = new_t t = new_t end if sub < 2 then t.displaystyle, t.scriptlevel = true, 0 else t.displaystyle, t.scriptlevel = false, sub//2 - 1 end cur_style = sub elseif id == choice_t then local size = cur_style//2 t[#t+1] = nodes_to_table(n[size == 0 and 'display' or size == 1 and 'text' or size == 2 and 'script' or size == 3 and 'scriptscript' or assert(false)], 2*size) elseif id == radical_t then t[#t+1] = radical_to_table(n, sub, cur_style) elseif id == fraction_t then t[#t+1] = fraction_to_table(n, sub, cur_style) elseif id == fence_t then t[#t+1] = fence_to_table(n, sub, cur_style) elseif id == kern_t then if not nonscript then t[#t+1] = space_to_table(n.kern, sub, cur_style) end elseif id == glue_t then if cur_style >= 4 or not nonscript then if sub == 98 then -- TODO magic number nonscript = true else t[#t+1] = space_to_table(n.width, sub, cur_style) end end else t[#t+1] = {[0] = 'tex:TODO', other = n} end nonscript = nil end return result end return function(head, style) local result = nodes_to_table(head, style or 0) result[0] = 'math' result.xmlns = 'http://www.w3.org/1998/Math/MathML' result['xmlns:tex'] = 'http://typesetting.eu/2021/LuaMathML' if style == 2 then result.display = 'block' end return result end