luametalatex/luametalatex-nodewriter.lua
2021-11-06 11:38:39 +01:00

764 lines
25 KiB
Lua

local format = string.format
local concat = table.concat
local write = texio.write_nl
local direct = node.direct
local properties = direct.properties
local tonode = direct.tonode
local todirect = direct.todirect
local getid = direct.getid
local traverse = direct.traverse
local getsubtype = direct.getsubtype
local getdirection = direct.getdirection
local setsubtype = direct.setsubtype
local getdepth = direct.getdepth
local getheight = direct.getheight
local getwidth = direct.getwidth
local setdepth = direct.setdepth
local setheight = direct.setheight
local setwidth = direct.setwidth
local getshift = direct.getshift
local getlist = direct.getlist
local getkern = direct.getkern
local getreplace = direct.getreplace
local getleader = direct.getleader
local setfont = direct.setfont
local getfont = direct.getfont
local getoffsets = direct.getoffsets
local getnext = direct.getnext
local getexpansion = direct.getexpansion
local getchar = direct.getchar
local rangedimensions = direct.rangedimensions
local traverse_id = direct.traverse_id
local getdata = direct.getdata
local getorientation = direct.getorientation
local utils = require'luametalatex-pdf-utils'
local strip_floats = utils.strip_floats
local to_bp = utils.to_bp
local make_resources = require'luametalatex-pdf-resources'
local pdf_font_map = require'luametalatex-pdf-font-deduplicate'
local get_whatsit_handler = require'luametalatex-whatsits'.handler
local write_matrix -- Defined later
local dir_id = node.id'dir'
local glue_id = node.id'glue'
local function doublekeyed(t, id2name, name2id, index)
return setmetatable(t, {
__index = index,
__newindex = function(t, k, v)
rawset(t, k, v)
if type(k) == 'string' then
rawset(t, name2id(k), v)
else
rawset(t, id2name(k), v)
end
end,
})
end
local nodehandler = (function()
local function unknown_handler(_, n, x, y)
write(format("Sorry, but the PDF backend does not support %q (id = %i) nodes right now. The supplied node will be dropped at coordinates (%i, %i).", node.type(getid(n)), getid(n), x//1, y//1))
end
return doublekeyed({}, node.type, node.id, function()
return unknown_handler
end)
end)()
local whatsithandler = (function()
local whatsits = node.whatsits()
local function unknown_handler(p, n, x, y, ...)
local prop = properties[n]-- or node.getproperty(n)
if prop and prop.handle then
prop:handle(p, n, x, y, ...)
else
write(format("Sorry, but the PDF backend does not support %q (id = %i) whatsits right now. The supplied node will be dropped at coordinates (%i, %i).", whatsits[getsubtype(n)], getsubtype(n), x//1, y//1))
end
end
return doublekeyed({}, function(n)return whatsits[n]end, function(n)return whatsits[n]end, function()
return unknown_handler
end)
end)()
local glyph, text, page, cm_pending = 1, 2, 3, 4
local function projected_point(m, x, y, w)
w = w or 1
return x*m[1] + y*m[3] + w*m[5], x*m[2] + y*m[4] + w*m[6]
end
local fontnames = setmetatable({}, {__index = function(t, k) local res = format("F%i", k) t[k] = res return res end})
local topage
local function totext(p, fid)
local last = p.mode
if last == glyph then
p.pending[#p.pending+1] = ")]TJ"
p.strings[#p.strings+1] = concat(p.pending)
for i=1,#p.pending do p.pending[i] = nil end
last = text
end
if last == cm_pending then topage(p) end
p.mode = text
if last == text and p.font.fid == fid then return end
local f = font.getfont(fid) or font.fonts[fid]
if last ~= text then p.strings[#p.strings+1] = "BT" p.pos.lx, p.pos.ly, p.pos.x, p.pos.y, p.font.exfactor, p.font.extend, p.font.squeeze, p.font.slant = 0, 0, 0, 0, 0, 1, 1, 0 end
local pdf_fid = pdf_font_map[fid]
p.resources.Font[fontnames[pdf_fid]] = p.fontdirs[pdf_fid]
p.strings[#p.strings+1] = strip_floats(format("/F%i %f Tf 0 Tr", pdf_fid, to_bp(f.size))) -- TODO: Setting the mode, width, etc.
p.font.usedglyphs = p.usedglyphs[pdf_fid]
p.font.fid = fid
p.font.font = f
local need_tm = false
if p.font.extend ~= (f.extend or 1000)/1000 then
p.font.extend = (f.extend or 1000)/1000
need_tm = true
end
if p.font.squeeze ~= (f.squeeze or 1000)/1000 then
p.font.squeeze = (f.squeeze or 1000)/1000
need_tm = true
end
if p.font.slant ~= (f.slant or 0)/1000 then
p.font.slant = (f.slant or 0)/1000
need_tm = true
end
return need_tm
end
function topage(p)
local last = p.mode
if last == page then return end
if last <= text then
totext(p, p.font.fid) -- First make sure we are really in text mode
p.strings[#p.strings+1] = "ET"
elseif last == cm_pending then
local pending = p.pending_matrix
if pending[1] ~= 1 or pending[2] ~= 0 or pending[3] ~= 0 or pending[4] ~= 1 or pending[5] ~= 0 or pending[6] ~= 0 then
p.strings[#p.strings+1] = strip_floats(format("%f %f %f %f %f %f cm", pending[1], pending[2], pending[3], pending[4], to_bp(pending[5]), to_bp(pending[6])))
end
else
error[[Unknown mode]]
end
p.mode = page
end
local function toglyph(p, fid, x, y, exfactor)
local last = p.mode
if last == glyph and p.font.fid == fid and p.pos.y == y and p.font.exfactor == exfactor then
if x == p.pos.x then return end
local xoffset = (x - p.pos.x)/p.font.font.size * 1000 / p.font.extend / (1+exfactor/1000000)
if math.abs(xoffset) < 1000000 then -- 1000000 is arbitrary
p.pending[#p.pending+1] = format(")%i(", math.floor(-xoffset))
p.pos.x = x
return
end
end
if totext(p, fid) or exfactor ~= p.font.exfactor then
p.font.exfactor = exfactor
p.strings[#p.strings+1] = strip_floats(format("%f 0.0 %f %f %f %f Tm", p.font.extend * (1+exfactor/1000000), p.font.slant, p.font.squeeze, to_bp(x), to_bp(y)))
else
-- To invert the text transformation matrix (extend 0 0;slant squeeze 0;0 0 1)
-- we have to apply (extend^-1 0 0;-slant*extend^-1*squeeze^-1 squeeze^-1 0;0 0 1). (extend has to include expansion)
-- We optimize slightly by separating some steps
local dx, dy = to_bp((x - p.pos.lx)), to_bp(y - p.pos.ly) / p.font.squeeze
dx = (dx-p.font.slant*dy) / (p.font.extend * (1+exfactor/1000000))
p.strings[#p.strings+1] = strip_floats(format("%f %f Td", dx, dy))
end
p.pos.lx, p.pos.ly, p.pos.x, p.pos.y = x, y, x, y
p.mode = glyph
p.pending[1] = "[("
end
local function boxrotation(p, list, x, y)
local orientation, xoff, yoff, woff, hoff, doff = getorientation(list)
if not orientation then return x, y, direct.getwhd(list) end
x, y = x + xoff, y + yoff
local baseorientation = orientation & 0xF
local v_anchor = (orientation & 0xF0) >> 4
local h_anchor = (orientation & 0xF00) >> 8
-- assert(baseorientation & 8 == 0)
if baseorientation & 4 == 4 then
-- assert(baseorientation < 6)
baseorientation, v_anchor = 0, baseorientation - 3
end
if baseorientation & 1 == 0 then -- horizontal
if h_anchor == 0 then
elseif h_anchor == 1 then
x = x - woff
elseif h_anchor == 2 then
x = x + woff
elseif h_anchor == 3 then
x = x - woff//2
elseif h_anchor == 4 then
x = x + woff//2
-- else assert(false)
end
local flipped = baseorientation ~= 0
if v_anchor ~= 0 then
local h, d = hoff, doff
if flipped then h, d = d, h end
if v_anchor == 1 then
y = y + d
elseif v_anchor == 2 then
y = y - h
elseif v_anchor == 3 then
y = y + (d - h)//2
-- else assert(false)
end
end
if flipped then
write_matrix(-1, 0, 0, -1, 2*x, 2*y, p)
x, y = x - woff, y
end
else -- vertical
if v_anchor == 0 then
elseif v_anchor == 1 then
y = y + woff
elseif v_anchor == 2 then
y = y - woff
elseif v_anchor == 3 then
y = y - woff//2
-- else assert(false)
end
local flipped = baseorientation ~= 1
if h_anchor ~= 0 then
local h, d = hoff, doff
if flipped then h, d = d, h end
if h_anchor == 1 then
x = x - h - d
elseif h_anchor == 2 then
x = x + h + d
elseif h_anchor == 3 then
x = x - (d + h)//2
elseif h_anchor == 4 then
x = x + (d + h)//2
elseif h_anchor == 5 then
x = x - d
elseif h_anchor == 6 then
x = x + h
-- else assert(false)
end
end
if flipped then
write_matrix(0, 1, -1, 0, x+y, y-x, p)
x, y = x, y - hoff
else
write_matrix(0, -1, 1, 0, x-y, x+y, p)
x, y = x - woff, y + doff
end
end
return x, y, woff, hoff, doff
end
local function endboxrotation(p, list, x, y)
local orientation, xoff, yoff, woff, hoff, doff = getorientation(list)
if not orientation then return end
local orientation = orientation & 0xF
-- assert(orientation & 8 == 0)
if orientation & 4 == 4 or orientation == 0 then
-- write_matrix(1, 0, 0, 1, 0, 0, p)
elseif orientation == 1 then
x, y = x + woff, y - doff
write_matrix(0, 1, -1, 0, x+y, y-x, p)
elseif orientation == 2 then
x = x + woff
write_matrix(-1, 0, 0, -1, 2*x, 2*y, p)
elseif orientation == 3 then
y = y + hoff
write_matrix(0, -1, 1, 0, x-y, x+y, p)
end
end
-- Let's start with "handlers" for nodes which do not need any special handling:
local function ignore_node() end
-- The following are already handled by the list handler because they only correspond to blank space:
nodehandler.math = ignore_node
nodehandler.kern = ignore_node
-- The following are only for frontend use:
nodehandler.boundary = ignore_node
nodehandler.par = ignore_node
nodehandler.penalty = ignore_node
nodehandler.mark = ignore_node
-- Now we come to more interesting nodes:
function nodehandler.hlist(p, list, x0, y, outerlist, origin, level)
if outerlist then
if getid(outerlist) == 0 then
y = y - getshift(list)
else
x0 = x0 + getshift(list)
end
end
local width
x0, y, width = boxrotation(p, list, x0, y)
local x = x0
local direction = getdirection(list)
if direction == 1 then
x = x + width
end
local dirstack = {}
local dirnodes = {}
for n, sub in traverse_id(dir_id, getlist(list)) do
if sub == 0 then
dirstack[#dirstack + 1] = n
else
local m = dirstack[#dirstack]
dirnodes[m] = n
dirstack[#dirstack] = nil
end
end
for i=1,#dirstack do
dirnodes[dirstack[i]] = rangedimensions(list, dirstack[i])
end
local linkcontext = p.linkcontext
if linkcontext then
linkcontext:set(p, x, y, list, level+1, 'start')
end
for n, id, sub in traverse(getlist(list)) do
if id == dir_id then
if sub == 0 then
local newdir = getdirection(n)
if newdir ~= direction then
local close = dirnodes[n]
local dim = rangedimensions(list, n, close)
if close then dirnodes[close] = dim end
x = x + (2*newdir-1) * dim
direction = newdir
end
else
local dim = dirnodes[n]
if dim then
x = x + (2*direction-1) * dim
direction = 1-direction
end
end
else
local next = getnext(n)
local w = next and rangedimensions(list, n, next) or rangedimensions(list, n)
if direction == 1 then x = x - w end
nodehandler[id](p, n, x, y, list, x0, level+1, direction)
if direction == 0 then x = w + x end
end
end
linkcontext = p.linkcontext
if linkcontext then
linkcontext:set(p, x, y, list, level+1, 'end')
end
endboxrotation(p, list, x0, y)
end
function nodehandler.vlist(p, list, x, y0, outerlist, origin, level)
if outerlist then
if getid(outerlist) == 0 then
y0 = y0 - getshift(list)
else
x = x + getshift(list)
end
end
local width, height
x, y0, width, height = boxrotation(p, list, x, y0)
local y = y0
y = y + height
for n in traverse(getlist(list)) do
local d, h, _ = 0, getid(n) == glue_id and direct.effective_glue(n, list) or math.tointeger(getkern(n))
if not h then
_, h, d = direct.getwhd(n)
end
y = y - (h or 0)
nodehandler[getid(n)](p, n, x, (y+.5)//1, list, y0, level+1)
y = y - (d or 0)
end
endboxrotation(p, list, x, y0)
end
do
local rulesubtypes = {}
for i, n in next, node.subtypes'rule' do
rulesubtypes[n] = i
end
local box_rule = rulesubtypes.box
local image_rule = rulesubtypes.image
local user_rule = rulesubtypes.user
local empty_rule = rulesubtypes.empty
local outline_rule = rulesubtypes.outline
local ship_img = require'luametalatex-pdf-image'.ship
local ship_box = require'luametalatex-pdf-savedbox'.ship
-- print(require'inspect'(node.subtypes('glue')))
-- print(require'inspect'(node.fields('glue')))
-- print(require'inspect'(node.fields('rule')))
-- print(require'inspect'(node.fields('whatsit')))
function nodehandler.rule(p, n, x, y, outer)
if getwidth(n) == -1073741824 then setwidth(n, getwidth(outer)) end
if getheight(n) == -1073741824 then setheight(n, getheight(outer)) end
if getdepth(n) == -1073741824 then setdepth(n, getdepth(outer)) end
local sub = getsubtype(n)
if getwidth(n) <= 0 or getdepth(n) + getheight(n) <= 0 then return end
if sub == box_rule then
ship_box(getdata(n), p, n, x, y)
elseif sub == image_rule then
ship_img(getdata(n), p, n, x, y)
elseif sub == empty_rule then
elseif sub == user_rule then
error[[We can't handle user rules yet]]
elseif sub == outline_rule then
error[[We can't handle outline rules yet]]
else
topage(p)
p.strings[#p.strings+1] = strip_floats(format("%f %f %f %f re f", to_bp(x), to_bp(y - getdepth(n)), to_bp(getwidth(n)), to_bp(getdepth(n) + getheight(n))))
end
end
end
-- If we encounter disc here, we can just use .replace. We could make TeX drop these using node.flatten_discretionaries,
-- but for now we just accept them. This approach might be a bit faster, but it leads to a few issue due to directions etc.
-- so it might change soon(ish) TODO: Review
function nodehandler.disc(p, n, x, y, list, ...)
for n in traverse(getreplace(n)) do
local next = getnext(n)
local w = next and rangedimensions(list, n, next) or rangedimensions(list, n)
nodehandler[getid(n)](p, n, x, y, list, ...)
x = w + x
end
end
local gluesubtypes = {}
for i, n in next, node.subtypes'glue' do
gluesubtypes[n] = i
end
local leaders_glue = gluesubtypes.leaders
local cleaders_glue = gluesubtypes.cleaders
local xleaders_glue = gluesubtypes.xleaders
local gleaders_glue = gluesubtypes.gleaders
function nodehandler.glue(p, n, x, y, outer, origin, level) -- Naturally this is an interesting one.
local subtype = getsubtype(n)
if subtype < leaders_glue then return end -- We only really care about leaders
local leader = getleader(n)
local w = direct.effective_glue(n, outer)
if getid(leader) == 2 then -- We got a rule, this should be easy
if getid(outer) == 0 then
setwidth(leader, w)
else
setheight(leader, w)
setdepth(leader, 0)
end
return nodehandler.rule(p, leader, x, y, outer)
end
local lwidth = getid(outer) == 0 and getwidth(leader) or getheight(leader) + getdepth(leader)
if getid(outer) ~= 0 then
y = y + w
end
if subtype == leaders_glue then
if getid(outer) == 0 then
local newx = ((x-origin - 1)//lwidth + 1) * lwidth + origin
-- local newx = -(origin-x)//lwidth * lwidth + origin
w = w + x - newx
x = newx
else
-- local newy = -(origin-y)//lwidth * lwidth + origin
local newy = (y-origin)//lwidth * lwidth + origin
w = w + newy - y
y = newy
end
elseif subtype == cleaders_glue then
local inner = w - (w // lwidth) * lwidth
if getid(outer) == 0 then
x = x + inner/2
else
y = y - inner/2
end
elseif subtype == xleaders_glue then
local count = w // lwidth
local skip = (w - count * lwidth) / (count + 1)
if getid(outer) == 0 then
x = x + skip
else
y = y - skip
end
lwidth = lwidth + skip
elseif subtype == gleaders_glue then
if getid(outer) == 0 then
local newx = ((x - 1)//lwidth + 1) * lwidth
w = w + x - newx
x = newx
else
local newy = y//lwidth * lwidth
w = w + newy - y
y = newy
end
end
local handler = nodehandler[getid(leader)]
if getid(outer) == 0 then
while w >= lwidth do
handler(p, leader, x, y, outer, origin, level+1)
w = w - lwidth
x = x + lwidth
end
else
y = y - getheight(leader)
while w >= lwidth do
handler(p, leader, x, y, outer, origin, level+1)
w = w - lwidth
y = y - lwidth
end
end
end
local vf_state
local pdf_escape = require'luametalatex-pdf-escape'.escape_raw
local match = lpeg.match
local function do_commands(p, c, f, cid, fid, x, y, outer, x0, level, direction)
local fonts = f.fonts
local stack, current_font = {}, fonts and fonts[1] and fonts[1].id or fid
for _, cmd in ipairs(c.commands) do
if cmd[1] == "node" then
local cmd = cmd[2]
assert(node.type(cmd))
cmd = todirect(cmd)
nodehandler[getid(cmd)](p, cmd, x, y, outer, x0, level, direction)
x = x + getwidth(cmd)
elseif cmd[1] == "font" then
current_font = assert(fonts[cmd[2]], "invalid font requested").id
elseif cmd[1] == "char" then
local n = direct.new'glyph'
setsubtype(n, 256)
setfont(n, current_font, cmd[2])
nodehandler.glyph(p, n, x, y, outer, x0, level, direction)
x = x + getwidth(n)
direct.free(n)
elseif cmd[1] == "slot" then
current_font = assert(fonts[cmd[2]], "invalid font requested").id
local n = direct.new'glyph'
setsubtype(n, 256)
setfont(n, current_font, cmd[3])
nodehandler.glyph(p, n, x, y, outer, x0, level, direction)
x = x + getwidth(n)
direct.free(n)
elseif cmd[1] == "rule" then
local n = direct.new'rule'
setheight(n, cmd[3])
setwidth(n, cmd[2])
nodehandler.rule(p, n, x, y, outer, x0, level, direction)
x = x + getwidth(n)
direct.free(n)
elseif cmd[1] == "right" then
x = x + cmd[2]
elseif cmd[1] == "down" then
y = y - cmd[2]
elseif cmd[1] == "push" then
stack[#stack + 1] = {x, y}
elseif cmd[1] == "pop" then
local top = stack[#stack]
stack[#stack] = nil
x, y = top[1], top[2]
elseif cmd[1] == "special" then
error[[specials aren't supported yet]] -- TODO
elseif cmd[1] == "pdf" then
local mode, literal = cmd[2], cmd[3]
if not literal then mode, literal = "origin", mode end
pdf.write(mode, literal, x, y, p)
elseif cmd[1] == "lua" then
cmd = cmd[2]
if type(cmd) == "string" then cmd = load(cmd) end
assert(type(cmd) == "function")
local old_vf_state = vf_state -- This can be triggered recursivly in odd cases
vf_state = {p, stack, current_font, x, y, outer, x0, level, direction}
pdf._latelua(p, x, y, cmd, fid, cid)
current_font, x, y = vf_state[3], vf_state[4], vf_state[5]
vf_state = old_vf_state
elseif cmd[1] == "image" then
error[[images aren't supported yet]] -- TODO
-- ???
-- else
-- NOP, comment and invalid commands ignored
end
end
end
-- Now we basically duplicate all of that for the `vf` library...
vf = {
char = function(cid)
local n = direct.new'glyph'
setsubtype(n, 256)
setfont(n, vf_state[3], cid)
local x = vf_state[4]
nodehandler.glyph(vf_state[1], n, x, vf_state[5], vf_state[6], vf_state[7], vf_state[8], vf_state[9])
vf_state[4] = x + getwidth(n)
direct.free(n)
end,
down = function(dy)
vf_state[5] = vf_state[5] - dy
end,
fontid = function(fid)
vf_state[3] = fid
end,
-- image = function(img) -- TODO
node = function(n)
assert(node.type(n))
cmd = todirect(n)
local x = vf_state[4]
nodehandler[getid(n)](vf_state[1], n, x, vf_state[5], vf_state[6], vf_state[7], vf_state[8], vf_state[9])
vf_state[4] = x + getwidth(n)
end,
nop = function() end,
pop = function()
local stack = vf_state[2]
local top = stack[#stack]
stack[#stack] = nil
vf_state[4], vf_state[5] = top[1], top[2]
end,
push = function()
local stack = vf_state[2]
stack[#stack + 1] = vf_state[4], vf_state[5]
end,
right = function(dx)
vf_state[4] = vf_state[4] + dx
end,
rule = function(width, height)
local n = direct.new'rule'
setheight(n, height)
setwidth(n, width)
local x = vf_state[4]
nodehandler.rule(vf_state[1], n, x, vf_state[5], vf_state[6], vf_state[7], vf_state[8], vf_state[9])
vf_state[4] = x + getwidth(n)
direct.free(n)
end,
special = function()
error[[specials aren't supported yet]] -- TODO
end,
pdf = function(mode, literal)
if not literal then mode, literal = "origin", mode end
pdf.write(mode, literal, vf_state[4], vf_state[5], vf_state[1])
end,
}
function nodehandler.glyph(p, n, x, y, outer, x0, level, direction)
if getfont(n) ~= p.vfont.fid then
p.vfont.fid = getfont(n)
p.vfont.font = font.getfont(getfont(n)) or font.fonts[getfont(n)]
end
local f, fid = p.vfont.font, p.vfont.fid
local cid = getchar(n)
local c = f.characters[cid]
if not c then
texio.write_nl("Missing character")
return
end
if c.commands then return do_commands(p, c, f, cid, fid, x, y, outer, x0, level, direction) end
local xoffset, yoffset = getoffsets(n)
toglyph(p, getfont(n), x + (direction == 1 and -xoffset or xoffset), y + yoffset, getexpansion(n))
local index = c.index
if index then
-- if f.encodingbytes == -3 then
if false then
if index < 0x80 then
p.pending[#p.pending+1] = pdf_escape(string.pack('>B', index))
elseif index < 0x7F80 then
p.pending[#p.pending+1] = pdf_escape(string.pack('>H', index+0x7F80))
else
p.pending[#p.pending+1] = pdf_escape(string.pack('>BH', 0xFF, index-0x7F80))
end
else
p.pending[#p.pending+1] = pdf_escape(string.pack('>H', index))
end
if not p.font.usedglyphs[index] then
p.font.usedglyphs[index] = {index, math.floor(c.width * 1000 / f.size / p.font.extend + .5), c.tounicode}
end
else
p.pending[#p.pending+1] = pdf_escape(string.char(getchar(n)))
if not p.font.usedglyphs[getchar(n)] then
p.font.usedglyphs[getchar(n)] = {getchar(n), math.floor(c.width * 1000 / f.size / p.font.extend + .5), c.tounicode}
end
end
p.pos.x = p.pos.x + math.floor(getwidth(n)*(1+getexpansion(n)/1000000)+.5)
end
function nodehandler.whatsit(p, n, ...) -- Whatsit?
local handler, prop = get_whatsit_handler(n)
if handler then
handler(prop, p, n, ...)
else
write("Invalid whatsit found (missing handler).")
end
end
local global_p, global_x, global_y
function pdf._latelua(p, x, y, func, ...)
global_p, global_x, global_y = p, x, y
return func(...)
end
function write_matrix(a, b, c, d, e, f, p)
e, f, p = e or 0, f or 0, p or global_p
local pending = p.pending_matrix
if p.mode ~= cm_pending then
topage(p)
p.mode = cm_pending
else
a, b = projected_point(pending, a, b, 0)
c, d = projected_point(pending, c, d, 0)
e, f = projected_point(pending, e, f, 1)
end
pending[1], pending[2], pending[3], pending[4], pending[5], pending[6] = a, b, c, d, e, f
end
pdf.write_matrix = write_matrix
local literal_type_names = { [0] =
'origin', 'page', 'direct', 'raw', 'text'
}
function pdf.write(mode, text, x, y, p)
x, y, p = x or global_x, y or global_y, p or global_p
mode = literal_type_names[mode] or mode
if mode == "page" then
topage(p)
p.strings[#p.strings + 1] = text
elseif mode == "text" then
topage(p)
p.strings[#p.strings + 1] = text
elseif mode == "direct" then
if p.mode ~= page then
totext(p, p.font.fid)
end
p.strings[#p.strings + 1] = text
elseif mode == "origin" then
write_matrix(1, 0, 0, 1, x, y, p)
topage(p)
p.strings[#p.strings + 1] = text
write_matrix(1, 0, 0, 1, -x, -y, p)
else
write(format('Literal type %s unsupported', mode))
end
end
local ondemandmeta = {
__index = function(t, k)
t[k] = {}
return t[k]
end
}
local function nodewriter(file, n, fontdirs, usedglyphs, colorstacks, resources)
n = todirect(n)
resources = resources or make_resources()
local p = {
is_page = not not colorstacks,
file = file,
mode = 3,
strings = {},
pending = {},
pos = {},
font = {},
vfont = {},
matrix = {1, 0, 0, 1, 0, 0},
pending_matrix = {},
resources = resources,
annots = {},
linkcontext = file.linkcontext,
fontdirs = fontdirs,
usedglyphs = usedglyphs,
}
if colorstacks then
for i=1, #colorstacks do
local colorstack = colorstacks[i]
if colorstack.page then
local stack = colorstack.page_stack
if colorstack.default ~= stack[#stack] then
pdf.write(colorstack.mode, stack[#stack], 0, 0, p)
end
end
end
end
nodehandler[getid(n)](p, n, 0, 0, n, nil, 0)
-- nodehandler[getid(n)](p, n, 0, getdepth(n), n)
topage(p)
return concat(p.strings, '\n'), resources, (p.annots[1] and string.format("/Annots[%s]", table.concat(p.annots, ' ')) or "")
end
require'luametalatex-pdf-savedbox':init_nodewriter(nodewriter)
return nodewriter