if not modules then modules = { } end modules ['mlib-pps'] = { version = 1.001, comment = "companion to mlib-ctx.mkiv", author = "Hans Hagen, PRAGMA-ADE, Hasselt NL", copyright = "PRAGMA ADE / ConTeXt Development Team", license = "see context related readme files", } local format, gmatch, match, split = string.format, string.gmatch, string.match, string.split local tonumber, type = tonumber, type local round = math.round local insert, remove, concat = table.insert, table.remove, table.concat local Cs, Cf, C, Cg, Ct, P, S, V, Carg = lpeg.Cs, lpeg.Cf, lpeg.C, lpeg.Cg, lpeg.Ct, lpeg.P, lpeg.S, lpeg.V, lpeg.Carg local lpegmatch, tsplitat, tsplitter = lpeg.match, lpeg.tsplitat, lpeg.tsplitter local formatters = string.formatters local mplib, metapost, lpdf, context = mplib, metapost, lpdf, context local context = context local context_setvalue = context.setvalue local texgetbox = tex.getbox local texsetbox = tex.setbox local textakebox = tex.takebox local copy_list = node.copy_list local free_list = node.flush_list local setmetatableindex = table.setmetatableindex local sortedhash = table.sortedhash local starttiming = statistics.starttiming local stoptiming = statistics.stoptiming local trace_runs = false trackers.register("metapost.runs", function(v) trace_runs = v end) local trace_textexts = false trackers.register("metapost.textexts", function(v) trace_textexts = v end) local trace_scripts = false trackers.register("metapost.scripts", function(v) trace_scripts = v end) local report_metapost = logs.reporter("metapost") local report_textexts = logs.reporter("metapost","textexts") local report_scripts = logs.reporter("metapost","scripts") local colors = attributes.colors local rgbtocmyk = colors.rgbtocmyk or function() return 0,0,0,1 end local cmyktorgb = colors.cmyktorgb or function() return 0,0,0 end local rgbtogray = colors.rgbtogray or function() return 0 end local cmyktogray = colors.cmyktogray or function() return 0 end metapost.makempy = metapost.makempy or { nofconverted = 0 } local makempy = metapost.makempy local nooutercolor = "0 g 0 G" local nooutertransparency = "/Tr0 gs" -- only when set local outercolormode = 0 local outercolor = nooutercolor local outertransparency = nooutertransparency local innercolor = nooutercolor local innertransparency = nooutertransparency local pdfcolor = lpdf.color local pdftransparency = lpdf.transparency local registercolor = colors.register local registerspotcolor = colors.registerspotcolor local transparencies = attributes.transparencies local registertransparency = transparencies.register function metapost.setoutercolor(mode,colormodel,colorattribute,transparencyattribute) -- has always to be called before conversion -- todo: transparency (not in the mood now) outercolormode = mode if mode == 1 or mode == 3 then -- inherit from outer (registered color) outercolor = pdfcolor(colormodel,colorattribute) or nooutercolor outertransparency = pdftransparency(transparencyattribute) or nooutertransparency elseif mode == 2 then -- stand alone (see m-punk.tex) outercolor = "" outertransparency = "" else -- 0 outercolor = nooutercolor outertransparency = nooutertransparency end innercolor = outercolor innertransparency = outertransparency -- not yet used end local f_f = formatters["%F"] local f_f3 = formatters["%.3F"] local f_gray = formatters["%.3F g %.3F G"] local f_rgb = formatters["%.3F %.3F %.3F rg %.3F %.3F %.3F RG"] local f_cmyk = formatters["%.3F %.3F %.3F %.3F k %.3F %.3F %.3F %.3F K"] local f_cm = formatters["q %F %F %F %F %F %F cm"] local f_shade = formatters["MpSh%s"] local function checked_color_pair(color,...) if not color then return innercolor, outercolor end if outercolormode == 3 then innercolor = color(...) return innercolor, innercolor else return color(...), outercolor end end function metapost.colorinitializer() innercolor = outercolor innertransparency = outertransparency return outercolor, outertransparency end --~ local specificationsplitter = tsplitat(" ") local colorsplitter = tsplitter(":",tonumber) -- no need for : local domainsplitter = tsplitter(" ",tonumber) local centersplitter = domainsplitter local coordinatesplitter = domainsplitter -- thanks to taco's reading of the postscript manual: -- -- x' = sx * x + ry * y + tx -- y' = rx * x + sy * y + ty local nofshades = 0 -- todo: hash resources, start at 1000 in order not to clash with older local function normalize(ca,cb) if #cb == 1 then if #ca == 4 then cb[1], cb[2], cb[3], cb[4] = 0, 0, 0, 1-cb[1] else cb[1], cb[2], cb[3] = cb[1], cb[1], cb[1] end elseif #cb == 3 then if #ca == 4 then cb[1], cb[2], cb[3], cb[4] = rgbtocmyk(cb[1],cb[2],cb[3]) else cb[1], cb[2], cb[3] = cmyktorgb(cb[1],cb[2],cb[3],cb[4]) end end end -- todo: check for the same colorspace (actually a backend issue), now we can -- have several similar resources -- -- normalize(ca,cb) fails for spotcolors local function spotcolorconverter(parent, n, d, p) registerspotcolor(parent) return pdfcolor(colors.model,registercolor(nil,'spot',parent,n,d,p)), outercolor end local commasplitter = tsplitat(",") local function checkandconvertspot(n_a,f_a,c_a,v_a,n_b,f_b,c_b,v_b) -- must be the same but we don't check local name = f_shade(nofshades) local ca = lpegmatch(commasplitter,v_a) local cb = lpegmatch(commasplitter,v_b) if #ca == 0 or #cb == 0 then return { 0 }, { 1 }, "DeviceGray", name else for i=1,#ca do ca[i] = tonumber(ca[i]) or 0 end for i=1,#cb do cb[i] = tonumber(cb[i]) or 1 end --~ spotcolorconverter(n_a,f_a,c_a,v_a) -- not really needed return ca, cb, n_a or n_b, name end end local function checkandconvert(ca,cb) local name = f_shade(nofshades) if not ca or not cb or type(ca) == "string" then return { 0 }, { 1 }, "DeviceGray", name else if #ca > #cb then normalize(ca,cb) elseif #ca < #cb then normalize(cb,ca) end local model = colors.model if model == "all" then model= (#ca == 4 and "cmyk") or (#ca == 3 and "rgb") or "gray" end if model == "rgb" then if #ca == 4 then ca = { cmyktorgb(ca[1],ca[2],ca[3],ca[4]) } cb = { cmyktorgb(cb[1],cb[2],cb[3],cb[4]) } elseif #ca == 1 then local a, b = 1-ca[1], 1-cb[1] ca = { a, a, a } cb = { b, b, b } end return ca, cb, "DeviceRGB", name elseif model == "cmyk" then if #ca == 3 then ca = { rgbtocmyk(ca[1],ca[2],ca[3]) } cb = { rgbtocmyk(cb[1],cb[2],cb[3]) } elseif #ca == 1 then ca = { 0, 0, 0, ca[1] } cb = { 0, 0, 0, ca[1] } end return ca, cb, "DeviceCMYK", name else if #ca == 4 then ca = { cmyktogray(ca[1],ca[2],ca[3],ca[4]) } cb = { cmyktogray(cb[1],cb[2],cb[3],cb[4]) } elseif #ca == 3 then ca = { rgbtogray(ca[1],ca[2],ca[3]) } cb = { rgbtogray(cb[1],cb[2],cb[3]) } end -- backend specific (will be renamed) return ca, cb, "DeviceGray", name end end end -- We keep textexts in a shared list (as it's easier that way and we also had that in -- the beginning). Each graphic gets its own (1 based) subtable so that we can also -- handle multiple conversions in one go which is needed when we process mp files -- directly. local stack = { } -- quick hack, we will pass topofstack around local top = nil local nofruns = 0 -- askedfig: "all", "first", number local function preset(t,k) -- references to textexts by mp index local v = { textrial = 0, texfinal = 0, texslots = { }, texorder = { }, texhash = { }, } t[k] = v return v end local function startjob(plugmode) top = { textexts = { }, -- all boxes, optionally with a different color texlast = 0, texdata = setmetatableindex({},preset), -- references to textexts in order or usage plugmode = plugmode, -- some day we can then skip all pre/postscripts } insert(stack,top) if trace_runs then report_metapost("starting run at level %i",#stack) end return top end local function stopjob() if top then for n, tn in next, top.textexts do free_list(tn) if trace_textexts then report_textexts("freeing text %s",n) end end if trace_runs then report_metapost("stopping run at level %i",#stack) end remove(stack) top = stack[#stack] return top end end -- end of new function metapost.settext(box,slot) top.textexts[slot] = copy_list(texgetbox(box)) texsetbox(box,nil) -- this can become -- top.textexts[slot] = textakebox(box) end function metapost.gettext(box,slot) texsetbox(box,copy_list(top.textexts[slot])) if trace_textexts then report_textexts("putting text %s in box %s",slot,box) end -- top.textexts[slot] = nil -- no, pictures can be placed several times end -- rather generic pdf, so use this elsewhere too it no longer pays -- off to distinguish between outline and fill (we now have both -- too, e.g. in arrows) metapost.reducetogray = true local models = { } function models.all(cr) local n = #cr if n == 0 then return checked_color_pair() elseif metapost.reducetogray then if n == 1 then local s = cr[1] return checked_color_pair(f_gray,s,s) elseif n == 3 then local r, g, b = cr[1], cr[2], cr[3] if r == g and g == b then return checked_color_pair(f_gray,r,r) else return checked_color_pair(f_rgb,r,g,b,r,g,b) end else local c, m, y, k = cr[1], cr[2], cr[3], cr[4] if c == m and m == y and y == 0 then k = 1 - k return checked_color_pair(f_gray,k,k) else return checked_color_pair(f_cmyk,c,m,y,k,c,m,y,k) end end elseif n == 1 then local s = cr[1] return checked_color_pair(f_gray,s,s) elseif n == 3 then local r, g, b = cr[1], cr[2], cr[3] return checked_color_pair(f_rgb,r,g,b,r,g,b) else local c, m, y, k = cr[1], cr[2], cr[3], cr[4] return checked_color_pair(f_cmyk,c,m,y,k,c,m,y,k) end end function models.rgb(cr) local n = #cr if n == 0 then return checked_color_pair() elseif metapost.reducetogray then if n == 1 then local s = cr[1] checked_color_pair(f_gray,s,s) elseif n == 3 then local r, g, b = cr[1], cr[2], cr[3] if r == g and g == b then return checked_color_pair(f_gray,r,r) else return checked_color_pair(f_rgb,r,g,b,r,g,b) end else local c, m, y, k = cr[1], cr[2], cr[3], cr[4] if c == m and m == y and y == 0 then k = 1 - k return checked_color_pair(f_gray,k,k) else local r, g, b = cmyktorgb(c,m,y,k) return checked_color_pair(f_rgb,r,g,b,r,g,b) end end elseif n == 1 then local s = cr[1] return checked_color_pair(f_gray,s,s) else local r, g, b if n == 3 then r, g, b = cmyktorgb(cr[1],cr[2],cr[3],cr[4]) else r, g, b = cr[1], cr[2], cr[3] end return checked_color_pair(f_rgb,r,g,b,r,g,b) end end function models.cmyk(cr) local n = #cr if n == 0 then return checked_color_pair() elseif metapost.reducetogray then if n == 1 then local s = cr[1] return checked_color_pair(f_gray,s,s) elseif n == 3 then local r, g, b = cr[1], cr[2], cr[3] if r == g and g == b then return checked_color_pair(f_gray,r,r) else local c, m, y, k = rgbtocmyk(r,g,b) return checked_color_pair(f_cmyk,c,m,y,k,c,m,y,k) end else local c, m, y, k = cr[1], cr[2], cr[3], cr[4] if c == m and m == y and y == 0 then k = k - 1 return checked_color_pair(f_gray,k,k) else return checked_color_pair(f_cmyk,c,m,y,k,c,m,y,k) end end elseif n == 1 then local s = cr[1] return checked_color_pair(f_gray,s,s) else local c, m, y, k if n == 3 then c, m, y, k = rgbtocmyk(cr[1],cr[2],cr[3]) else c, m, y, k = cr[1], cr[2], cr[3], cr[4] end return checked_color_pair(f_cmyk,c,m,y,k,c,m,y,k) end end function models.gray(cr) local n, s = #cr, 0 if n == 0 then return checked_color_pair() elseif n == 4 then s = cmyktogray(cr[1],cr[2],cr[3],cr[4]) elseif n == 3 then s = rgbtogray(cr[1],cr[2],cr[3]) else s = cr[1] end return checked_color_pair(f_gray,s,s) end setmetatableindex(models, function(t,k) local v = models.gray t[k] = v return v end) local function colorconverter(cs) return models[colors.model](cs) end local btex = P("btex") local etex = P(" etex") local vtex = P("verbatimtex") local ttex = P("textext") local gtex = P("graphictext") local multipass = P("forcemultipass") local spacing = S(" \n\r\t\v")^0 local dquote = P('"') local found, forced = false, false local function convert(str) found = true return "rawtextext(\"" .. str .. "\")" -- centered end local function ditto(str) return "\" & ditto & \"" end local function register() found = true end local function force() forced = true end local texmess = (dquote/ditto + (1 - etex))^0 local function ignore(s) report_metapost("ignoring verbatim tex: %s",s) return "" end -- local parser = P { -- [1] = Cs((V(2)/register + V(4)/ignore + V(3)/convert + V(5)/force + 1)^0), -- [2] = ttex + gtex, -- [3] = btex * spacing * Cs(texmess) * etex, -- [4] = vtex * spacing * Cs(texmess) * etex, -- [5] = multipass, -- experimental, only for testing -- } -- currently a a one-liner produces less code -- textext.*(".*") can have "'s but tricky parsing as we can have concatenated strings -- so this is something for a boring plain or train trip and we might assume proper mp -- input anyway local parser = Cs(( (ttex + gtex)/register + (btex * spacing * Cs(texmess) * etex)/convert + (vtex * spacing * Cs(texmess) * etex)/ignore + 1 )^0) local function checktexts(str) found, forced = false, false return lpegmatch(parser,str), found, forced end metapost.checktexts = checktexts local factor = 65536*(7227/7200) function metapost.edefsxsy(wd,ht,dp) -- helper for figure local hd = ht + dp context_setvalue("sx",wd ~= 0 and factor/wd or 0) context_setvalue("sy",hd ~= 0 and factor/hd or 0) end local function sxsy(wd,ht,dp) -- helper for text local hd = ht + dp return (wd ~= 0 and factor/wd) or 0, (hd ~= 0 and factor/hd) or 0 end local no_first_run = "mfun_first_run := false ;" local do_first_run = "mfun_first_run := true ;" local no_trial_run = "mfun_trial_run := false ;" local do_trial_run = "mfun_trial_run := true ;" local do_begin_fig = "; beginfig(1) ; " local do_end_fig = "; endfig ;" local do_safeguard = ";" local f_text_data = formatters["mfun_tt_w[%i] := %f ; mfun_tt_h[%i] := %f ; mfun_tt_d[%i] := %f ;"] function metapost.textextsdata() local textexts = top.textexts local collected = { } local nofcollected = 0 for k, data in sortedhash(top.texdata) do -- sort is nicer in trace local texorder = data.texorder for n=1,#texorder do local box = textexts[texorder[n]] if box then local wd, ht, dp = box.width/factor, box.height/factor, box.depth/factor if trace_textexts then report_textexts("passed data item %s:%s > (%p,%p,%p)",k,n,wd,ht,dp) end nofcollected = nofcollected + 1 collected[nofcollected] = f_text_data(n,wd,n,ht,n,dp) else break end end end return collected end metapost.intermediate = metapost.intermediate or { } metapost.intermediate.actions = metapost.intermediate.actions or { } metapost.method = 1 -- 1:dumb 2:clever -- maybe we can latelua the texts some day local processmetapost = metapost.process local function checkaskedfig(askedfig) -- return askedfig, wrappit if not askedfig then return "direct", true elseif askedfig == "all" then return "all", false elseif askedfig == "direct" then return "all", true else askedfig = tonumber(askedfig) if askedfig then return askedfig, false else return "direct", true end end end local function extrapass() if trace_runs then report_metapost("second run of job %s, asked figure %a",top.nofruns,top.askedfig) end processmetapost(top.mpx, { top.wrappit and do_begin_fig or "", no_trial_run, concat(metapost.textextsdata()," ;\n"), top.initializations, do_safeguard, top.data, top.wrappit and do_end_fig or "", }, false, nil, false, true, top.askedfig) end function metapost.graphic_base_pass(specification) -- name will change (see mlib-ctx.lua) local top = startjob(true) -- local mpx = specification.mpx -- mandate local data = specification.data or "" local definitions = specification.definitions or "" -- local extensions = metapost.getextensions(specification.instance,specification.useextensions) local extensions = specification.extensions or "" local inclusions = specification.inclusions or "" local initializations = specification.initializations or "" local askedfig = specification.figure -- no default else no wrapper -- local askedfig, wrappit = checkaskedfig(askedfig) -- nofruns = nofruns + 1 -- top.askedfig = askedfig top.wrappit = wrappit top.nofruns = nofruns -- local done_1, done_2, done_3, forced_1, forced_2, forced_3 data, done_1, forced_1 = checktexts(data) -- we had preamble = extensions + inclusions if extensions == "" then extensions, done_2, forced_2 = "", false, false else extensions, done_2, forced_2 = checktexts(extensions) end if inclusions == "" then inclusions, done_3, forced_3 = "", false, false else inclusions, done_3, forced_3 = checktexts(inclusions) end top.intermediate = false top.multipass = false -- no needed here top.mpx = mpx top.data = data top.initializations = initializations local method = metapost.method if trace_runs then if method == 1 then report_metapost("forcing two runs due to library configuration") elseif method ~= 2 then report_metapost("ignoring run due to library configuration") elseif not (done_1 or done_2 or done_3) then report_metapost("forcing one run only due to analysis") elseif done_1 then report_metapost("forcing at max two runs due to main code") elseif done_2 then report_metapost("forcing at max two runs due to extensions") else report_metapost("forcing at max two runs due to inclusions") end end if method == 1 or (method == 2 and (done_1 or done_2 or done_3)) then if trace_runs then report_metapost("first run of job %s, asked figure %a",nofruns,askedfig) end -- first true means: trialrun, second true means: avoid extra run if no multipass local flushed = processmetapost(mpx, { definitions, extensions, inclusions, wrappit and do_begin_fig or "", do_first_run, do_trial_run, initializations, do_safeguard, data, wrappit and do_end_fig or "", }, true, nil, not (forced_1 or forced_2 or forced_3), false, askedfig) if top.intermediate then for _, action in next, metapost.intermediate.actions do action() end end if not flushed or not metapost.optimize then -- tricky, we can only ask once for objects and therefore -- we really need a second run when not optimized -- context.MPLIBextrapass(askedfig) context(extrapass) end else if trace_runs then report_metapost("running job %s, asked figure %a",nofruns,askedfig) end processmetapost(mpx, { preamble, wrappit and do_begin_fig or "", do_first_run, no_trial_run, initializations, do_safeguard, data, wrappit and do_end_fig or "", }, false, nil, false, false, askedfig) end context(stopjob) end function metapost.process(...) startjob(false) processmetapost(...) stopjob() end local start = [[\starttext]] local preamble = [[\def\MPLIBgraphictext#1{\startTEXpage[scale=10000]#1\stopTEXpage}]] local stop = [[\stoptext]] local mpyfilename = nil function makempy.registerfile(filename) mpyfilename = filename end function makempy.processgraphics(graphics) if #graphics == 0 then return end if mpyfilename and io.exists(mpyfilename) then report_metapost("using file: %s",mpyfilename) return end makempy.nofconverted = makempy.nofconverted + 1 starttiming(makempy) local mpofile = tex.jobname .. "-mpgraph" local mpyfile = file.replacesuffix(mpofile,"mpy") local pdffile = file.replacesuffix(mpofile,"pdf") local texfile = file.replacesuffix(mpofile,"tex") io.savedata(texfile, { start, preamble, metapost.tex.get(), concat(graphics,"\n"), stop }, "\n") local command = format("context --once %s %s", (tex.interactionmode == 0 and "--batchmode") or "", texfile) os.execute(command) if io.exists(pdffile) then command = format("pstoedit -ssp -dt -f mpost %s %s", pdffile, mpyfile) logs.newline() report_metapost("running: %s",command) logs.newline() os.execute(command) if io.exists(mpyfile) then local result, r = { }, 0 local data = io.loaddata(mpyfile) if data and #data > 0 then for figure in gmatch(data,"beginfig(.-)endfig") do r = r + 1 result[r] = formatters["begingraphictextfig%sendgraphictextfig ;\n"](figure) end io.savedata(mpyfile,concat(result,"")) end end end stoptiming(makempy) end -- -- the new plugin handler -- -- local sequencers = utilities.sequencers local appendgroup = sequencers.appendgroup local appendaction = sequencers.appendaction local resetter = nil local analyzer = nil local processor = nil local resetteractions = sequencers.new { arguments = "t" } local analyzeractions = sequencers.new { arguments = "object,prescript" } local processoractions = sequencers.new { arguments = "object,prescript,before,after" } appendgroup(resetteractions, "system") appendgroup(analyzeractions, "system") appendgroup(processoractions,"system") -- later entries come first --~ local scriptsplitter = Cf(Ct("") * ( --~ Cg(C((1-S("= "))^1) * S("= ")^1 * C((1-S("\n\r"))^0) * S("\n\r")^0) --~ )^0, rawset) local scriptsplitter = Ct ( Ct ( C((1-S("= "))^1) * S("= ")^1 * C((1-S("\n\r"))^0) * S("\n\r")^0 )^0 ) local function splitprescript(script) local hash = lpegmatch(scriptsplitter,script) for i=#hash,1,-1 do local h = hash[i] hash[h[1]] = h[2] end if trace_scripts then report_scripts(table.serialize(hash,"prescript")) end return hash end -- -- not used: -- -- local function splitpostscript(script) -- local hash = lpegmatch(scriptsplitter,script) -- for i=1,#hash do -- local h = hash[i] -- hash[h[1]] = h[2] -- end -- if trace_scripts then -- report_scripts(table.serialize(hash,"postscript")) -- end -- return hash -- end function metapost.pluginactions(what,t,flushfigure) -- before/after object, depending on what if top.plugmode then -- hm, what about other features for i=1,#what do local wi = what[i] if type(wi) == "function" then -- assume injection flushfigure(t) -- to be checked: too many 0 g 0 G t = { } wi() else t[#t+1] = wi end end return t end end function metapost.resetplugins(t) -- intialize plugins, before figure if top.plugmode then -- plugins can have been added resetter = resetteractions.runner analyzer = analyzeractions.runner processor = processoractions.runner -- let's apply one runner resetter(t) end end function metapost.analyzeplugins(object) -- each object (first pass) if top.plugmode then local prescript = object.prescript -- specifications if prescript and #prescript > 0 then analyzer(object,splitprescript(prescript)) return top.multipass end end return false end function metapost.processplugins(object) -- each object (second pass) if top.plugmode then local prescript = object.prescript -- specifications if prescript and #prescript > 0 then local before = { } local after = { } processor(object,splitprescript(prescript),before,after) return #before > 0 and before, #after > 0 and after else local c = object.color if c and #c > 0 then local b, a = colorconverter(c) return { b }, { a } end end end end -- helpers local basepoints = number.dimenfactors["bp"] local function cm(object) local op = object.path if op then local first, second, fourth = op[1], op[2], op[4] local tx, ty = first.x_coord , first.y_coord local sx, sy = second.x_coord - tx, fourth.y_coord - ty local rx, ry = second.y_coord - ty, fourth.x_coord - tx if sx == 0 then sx = 0.00001 end if sy == 0 then sy = 0.00001 end return sx, rx, ry, sy, tx, ty else return 1, 0, 0, 1, 0, 0 -- weird case end end -- color local function cl_reset(t) t[#t+1] = metapost.colorinitializer() -- only color end local function tx_reset() if top then -- why ? top.texhash = { } top.texlast = 0 end end local fmt = formatters["%s %s %s % t"] ----- pat = tsplitat(":") local pat = lpeg.tsplitter(":",tonumber) -- so that %F can do its work local ctx_MPLIBsetNtext = context.MPLIBsetNtext local ctx_MPLIBsetCtext = context.MPLIBsetCtext local function tx_analyze(object,prescript) -- todo: hash content and reuse them local data = top.texdata[metapost.properties.number] local tx_stage = prescript.tx_stage if tx_stage == "trial" then local tx_trial = data.textrial + 1 data.textrial = tx_trial local tx_number = tonumber(prescript.tx_number) local s = object.postscript or "" local c = object.color -- only simple ones, no transparency if #c == 0 then local txc = prescript.tx_color if txc then c = lpegmatch(pat,txc) end end local a = tonumber(prescript.tr_alternative) local t = tonumber(prescript.tr_transparency) local h = fmt(tx_number,a or "-",t or "-",c or "-") local n = data.texhash[h] -- todo: hashed variant with s (nicer for similar labels) if not n then local tx_last = top.texlast + 1 top.texlast = tx_last if not c then ctx_MPLIBsetNtext(tx_last,s) elseif #c == 1 then if a and t then ctx_MPLIBsetCtext(tx_last,formatters["s=%F,a=%F,t=%F"](c[1],a,t),s) else ctx_MPLIBsetCtext(tx_last,formatters["s=%F"](c[1]),s) end elseif #c == 3 then if a and t then ctx_MPLIBsetCtext(tx_last,formatters["r=%F,g=%F,b=%F,a=%F,t=%F"](c[1],c[2],c[3],a,t),s) else ctx_MPLIBsetCtext(tx_last,formatters["r=%F,g=%F,b=%F"](c[1],c[2],c[3]),s) end elseif #c == 4 then if a and t then ctx_MPLIBsetCtext(tx_last,formatters["c=%F,m=%F,y=%F,k=%F,a=%F,t=%F"](c[1],c[2],c[3],c[4],a,t),s) else ctx_MPLIBsetCtext(tx_last,formatters["c=%F,m=%F,y=%F,k=%F"](c[1],c[2],c[3],c[4]),s) end else ctx_MPLIBsetNtext(tx_last,s) end top.multipass = true data.texhash [h] = tx_last data.texslots[tx_trial] = tx_last data.texorder[tx_number] = tx_last if trace_textexts then report_textexts("stage %a, usage %a, number %a, new %a, hash %a",tx_stage,tx_trial,tx_number,tx_last,h) end else data.texslots[tx_trial] = n if trace_textexts then report_textexts("stage %a, usage %a, number %a, old %a, hash %a",tx_stage,tx_trial,tx_number,n,h) end end elseif tx_stage == "extra" then local tx_trial = data.textrial + 1 data.textrial = tx_trial local tx_number = tonumber(prescript.tx_number) if not data.texorder[tx_number] then local s = object.postscript or "" local tx_last = top.texlast + 1 top.texlast = tx_last context.MPLIBsettext(tx_last,s) top.multipass = true data.texslots[tx_trial] = tx_last data.texorder[tx_number] = tx_last if trace_textexts then report_textexts("stage %a, usage %a, number %a, extra %a",tx_stage,tx_trial,tx_number,tx_last) end end end end local function tx_process(object,prescript,before,after) local data = top.texdata[metapost.properties.number] local tx_number = tonumber(prescript.tx_number) if tx_number then local tx_stage = prescript.tx_stage if tx_stage == "final" then local tx_final = data.texfinal + 1 data.texfinal = tx_final local n = data.texslots[tx_final] if trace_textexts then report_textexts("stage %a, usage %a, number %a, use %a",tx_stage,tx_final,tx_number,n) end local sx, rx, ry, sy, tx, ty = cm(object) -- needs to be frozen outside the function local box = top.textexts[n] if box then before[#before+1] = function() -- flush always happens, we can have a special flush function injected before context.MPLIBgettextscaledcm(n, f_f(sx), -- bah ... %s no longer checks f_f(rx), -- bah ... %s no longer checks f_f(ry), -- bah ... %s no longer checks f_f(sy), -- bah ... %s no longer checks f_f(tx), -- bah ... %s no longer checks f_f(ty), -- bah ... %s no longer checks sxsy(box.width,box.height,box.depth)) end else before[#before+1] = function() report_textexts("unknown %s",tx_number) end end if not trace_textexts then object.path = false -- else: keep it end object.color = false object.grouped = true end end end -- graphics (we use the given index because pictures can be reused) local graphics = { } function metapost.intermediate.actions.makempy() if #graphics > 0 then makempy.processgraphics(graphics) graphics = { } -- ? could be gt_reset end end local function gt_analyze(object,prescript) local gt_stage = prescript.gt_stage local gt_index = tonumber(prescript.gt_index) if gt_stage == "trial" and not graphics[gt_index] then graphics[gt_index] = formatters["\\MPLIBgraphictext{%s}"](object.postscript or "") top.intermediate = true top.multipass = true end end -- local function gt_process(object,prescript,before,after) -- local gt_stage = prescript.gt_stage -- if gt_stage == "final" then -- end -- end -- shades local function sh_process(object,prescript,before,after) local sh_type = prescript.sh_type if sh_type then nofshades = nofshades + 1 local domain = lpegmatch(domainsplitter,prescript.sh_domain) local centera = lpegmatch(centersplitter,prescript.sh_center_a) local centerb = lpegmatch(centersplitter,prescript.sh_center_b) -- local sh_color_a = prescript.sh_color_a or "1" local sh_color_b = prescript.sh_color_b or "1" local ca, cb, colorspace, name, separation if prescript.sh_color == "into" and prescript.sp_name then -- some spotcolor local value_a, components_a, fractions_a, name_a local value_b, components_b, fractions_b, name_b for i=1,#prescript do -- { "sh_color_a", "1" }, -- { "sh_color", "into" }, -- { "sh_radius_b", "0" }, -- { "sh_radius_a", "141.73225" }, -- { "sh_center_b", "425.19676 141.73225" }, -- { "sh_center_a", "425.19676 0" }, -- { "sh_factor", "1" }, local tag = prescript[i][1] if not name_a and tag == "sh_color_a" then value_a = prescript[i-5][2] components_a = prescript[i-4][2] fractions_a = prescript[i-3][2] name_a = prescript[i-2][2] elseif not name_b and tag == "sh_color_b" then value_b = prescript[i-5][2] components_b = prescript[i-4][2] fractions_b = prescript[i-3][2] name_b = prescript[i-2][2] end if name_a and name_b then break end end ca, cb, separation, name = checkandconvertspot( name_a,fractions_a,components_a,value_a, name_b,fractions_b,components_b,value_b ) else local colora = lpegmatch(colorsplitter,sh_color_a) local colorb = lpegmatch(colorsplitter,sh_color_b) ca, cb, colorspace, name = checkandconvert(colora,colorb) end if not ca or not cb then ca, cb, colorspace, name = checkandconvert() end if sh_type == "linear" then local coordinates = { centera[1], centera[2], centerb[1], centerb[2] } lpdf.linearshade(name,domain,ca,cb,1,colorspace,coordinates,separation) -- backend specific (will be renamed) elseif sh_type == "circular" then local radiusa = tonumber(prescript.sh_radius_a) local radiusb = tonumber(prescript.sh_radius_b) local coordinates = { centera[1], centera[2], radiusa, centerb[1], centerb[2], radiusb } lpdf.circularshade(name,domain,ca,cb,1,colorspace,coordinates,separation) -- backend specific (will be renamed) else -- fatal error end before[#before+1], after[#after+1] = "q /Pattern cs", formatters["W n /%s sh Q"](name) -- false, not nil, else mt triggered object.colored = false -- hm, not object.color ? object.type = false object.grouped = true end end -- bitmaps local function bm_process(object,prescript,before,after) local bm_xresolution = prescript.bm_xresolution if bm_xresolution then before[#before+1] = f_cm(cm(object)) before[#before+1] = function() figures.bitmapimage { xresolution = tonumber(bm_xresolution), yresolution = tonumber(prescript.bm_yresolution), width = 1/basepoints, height = 1/basepoints, data = object.postscript } end before[#before+1] = "Q" object.path = false object.color = false object.grouped = true end end -- positions local function ps_process(object,prescript,before,after) local ps_label = prescript.ps_label if ps_label then local op = object.path local first, third = op[1], op[3] local x, y = first.x_coord, first.y_coord local w, h = third.x_coord - x, third.y_coord - y local properties = metapost.properties x = x - properties.llx y = properties.ury - y before[#before+1] = function() context.MPLIBpositionwhd(ps_label,x,y,w,h) end object.path = false end end -- figures local function fg_process(object,prescript,before,after) local fg_name = prescript.fg_name if fg_name then before[#before+1] = f_cm(cm(object)) -- beware: does not use the cm stack before[#before+1] = function() context.MPLIBfigure(fg_name,prescript.fg_mask or "") end before[#before+1] = "Q" object.path = false object.grouped = true end end -- color and transparency local value = Cs ( ( (Carg(1) * C((1-P(","))^1)) / function(a,b) return f_f3(a * tonumber(b)) end + P(","))^1 ) -- should be codeinjections local t_list = attributes.list[attributes.private('transparency')] local c_list = attributes.list[attributes.private('color')] local function tr_process(object,prescript,before,after) -- before can be shortcut to t local tr_alternative = prescript.tr_alternative if tr_alternative then tr_alternative = tonumber(tr_alternative) local tr_transparency = tonumber(prescript.tr_transparency) before[#before+1] = formatters["/Tr%s gs"](registertransparency(nil,tr_alternative,tr_transparency,true)) after[#after+1] = "/Tr0 gs" -- outertransparency end local cs = object.color if cs and #cs > 0 then local c_b, c_a local sp_type = prescript.sp_type if not sp_type then c_b, c_a = colorconverter(cs) elseif sp_type == "spot" or sp_type == "multitone" then local sp_name = prescript.sp_name or "black" local sp_fractions = prescript.sp_fractions or 1 local sp_components = prescript.sp_components or "" local sp_value = prescript.sp_value or "1" local cf = cs[1] if cf ~= 1 then -- beware, we do scale the spotcolors but not the alternative representation sp_value = lpegmatch(value,sp_value,1,cf) or sp_value end c_b, c_a = spotcolorconverter(sp_name,sp_fractions,sp_components,sp_value) elseif sp_type == "named" then -- we might move this to another namespace .. also, named can be a spotcolor -- so we need to check for that too ... also we need to resolve indirect -- colors so we might need the second pass for this (draw dots with \MPcolor) local sp_name = prescript.sp_name or "black" if not tr_alternative then -- todo: sp_name is not yet registered at this time local t = t_list[sp_name] -- string or attribute local v = t and attributes.transparencies.value(t) if v then before[#before+1] = formatters["/Tr%s gs"](registertransparency(nil,v[1],v[2],true)) after[#after+1] = "/Tr0 gs" -- outertransparency end end local c = c_list[sp_name] -- string or attribute local v = c and attributes.colors.value(c) if v then -- all=1 gray=2 rgb=3 cmyk=4 local colorspace = v[1] local f = cs[1] if colorspace == 2 then local s = f*v[2] c_b, c_a = checked_color_pair(f_gray,s,s) elseif colorspace == 3 then local r, g, b = f*v[3], f*v[4], f*v[5] c_b, c_a = checked_color_pair(f_rgb,r,g,b,r,g,b) elseif colorspace == 4 or colorspace == 1 then local c, m, y, k = f*v[6], f*v[7], f*v[8], f*v[9] c_b, c_a = checked_color_pair(f_cmyk,c,m,y,k,c,m,y,k) else local s = f*v[2] c_b, c_a = checked_color_pair(f_gray,s,s) end end -- end if c_a and c_b then before[#before+1] = c_b after[#after+1] = c_a end end end -- layers (nasty: we need to keep the 'grouping' right local function la_process(object,prescript,before,after) local la_name = prescript.la_name if la_name then before[#before+1] = backends.codeinjections.startlayer(la_name) insert(after,1,backends.codeinjections.stoplayer()) end end -- groups local types = { isolated } local function gr_process(object,prescript,before,after) local gr_state = prescript.gr_state if gr_state then if gr_state == "start" then local gr_type = utilities.parsers.settings_to_hash(prescript.gr_type) before[#before+1] = function() context.MPLIBstartgroup( gr_type.isolated and 1 or 0, gr_type.knockout and 1 or 0, prescript.gr_llx, prescript.gr_lly, prescript.gr_urx, prescript.gr_ury ) end elseif gr_state == "stop" then after[#after+1] = function() context.MPLIBstopgroup() end end object.path = false object.color = false object.grouped = true end end -- definitions appendaction(resetteractions, "system",cl_reset) appendaction(resetteractions, "system",tx_reset) appendaction(processoractions,"system",gr_process) appendaction(analyzeractions, "system",tx_analyze) appendaction(analyzeractions, "system",gt_analyze) appendaction(processoractions,"system",sh_process) -- (processoractions,"system",gt_process) appendaction(processoractions,"system",bm_process) appendaction(processoractions,"system",tx_process) appendaction(processoractions,"system",ps_process) appendaction(processoractions,"system",fg_process) appendaction(processoractions,"system",tr_process) -- last, as color can be reset appendaction(processoractions,"system",la_process) -- we're nice and set them already resetter = resetteractions .runner analyzer = analyzeractions .runner processor = processoractions.runner