From 82363687abbffeaa2b8e9fe3ea988d92702a09b1 Mon Sep 17 00:00:00 2001 From: Karl Berry Date: Wed, 17 Nov 2010 22:30:53 +0000 Subject: luasseq under lualatex, .lua in runtime (luecking 17 Nov 2010 15:52:14) git-svn-id: svn://tug.org/texlive/trunk@20467 c570f23f-e606-0410-a88d-b1316a301751 --- Master/texmf-dist/scripts/luasseq/luasseq.lua | 830 ++++++++++++++++++++++++++ 1 file changed, 830 insertions(+) create mode 100755 Master/texmf-dist/scripts/luasseq/luasseq.lua (limited to 'Master/texmf-dist/scripts/luasseq') diff --git a/Master/texmf-dist/scripts/luasseq/luasseq.lua b/Master/texmf-dist/scripts/luasseq/luasseq.lua new file mode 100755 index 00000000000..80704fb5d5e --- /dev/null +++ b/Master/texmf-dist/scripts/luasseq/luasseq.lua @@ -0,0 +1,830 @@ +-- to do: clean up dtx file of remnants of classical sseq code +-- to do: documentation + +function sseq_init() +-- sseqobject is a 2D-array containing arrays of all the nodes that are dropped at (x,y) +-- Thus the first object dropped at (2,3) is sseqobject[2][3][1]. +-- The object itself is a dictionary, containing: +-- name a given name +-- code the TeX code (in math mode) to typeset +-- extends if it's an extension, then what it extends +-- color the color +-- nodetype the pgf node type (circle etc) +-- cmd pgf code for drawing it -- with one %s for the color +-- posx,posy the absolute position on the picture (in sp) -- determined at the end + sseqobject = {} +-- sseqname is a dictionary containing all the given names of dropped objects +-- Its value is a dictionary, containing +-- x, y, n the triple index in the sseqobject array + sseqname = {} +-- sseqlabel is an array of labels of sseqobjects +-- Its values are dictionaries, containing +-- x,y,n the triple the label belongs to +-- pos one of L,LU,U,RU,R,RD,D,LD +-- code the TeX code (in math mode) to typeset +-- color the color + sseqlabel = {} +-- sseqconnection is an array containing all connection (lines) +-- the connection itself is a dictionary, containing: +-- from an array (x,y,n) if n=0 then source void +-- to an array (x,y,n) if n=0 then target void +-- color the color +-- curving a number denoting the curving factor +-- dashing the pgf dashing code +-- arrowfrom the arrowstyle at from (or nil) +-- arrowto the arrowstyle at to (or nil) + sseqconnection = {} +-- +-- Initialize some global variables +-- + sseqcurrentindex = nil + sseqpreviousindex = nil + sseqopenconnection = nil + + sseqxstart = 0 -- minimal x + sseqystart = 0 -- minimal y + + sseqgriddrawer = sseq_grid_crossword + sseqgridstrokethickness = 6554 -- 0.1pt in sp + + sseqxlabels = sseq_parse_label_list("&n") + sseqylabels = sseq_parse_label_list("&n") + + sseqprefix = {} + sseqposx, sseqposy = 0,0 + sseqcurrabsx, sseqcurrabsy = 0,0 + sseq_set_defaults() +end + +function sseq_set_defaults() + sseqentrysize = 745860 -- 0.4 cm in scaled points + sseqxgap = 559409 -- 0.3 cm in scaled points + sseqygap = 559409 + sseqxstep = 2 -- every other label is drawn + sseqystep = 2 + sseqdefaultarrowstyle = "to" + ssequsescolor = true + sseqpacking = sseq_pack_auto +end + + +-- parselabelrange: input = a string of the form a...b,c...d, etc. +-- defstart: the default start index +-- return = an array of dictionaries +-- min a number +-- max a number +function parselabelrange(s,defstart) + local res = {} + local mini,maxi,found + for rng in string.gfind(s.."," , "([^,]+)") do + found,_,mini,maxi = string.find(rng,"([+-]?[0-9]+)%.%.%.([+-]?[0-9]+)") + if not found then + mini = defstart + maxi = tonumber(rng) + if not maxi then error("invalid range : "..rng) end + maxi = maxi+defstart-1 + else + mini = tonumber(mini) + maxi = tonumber(maxi) + end + table.insert(res,{min = mini, max = maxi}) + end + return res +end + +function sseq_setup_ranges(xr,yr,defxstart,defystart) + sseqxrange = parselabelrange(xr,defxstart) + sseqyrange = parselabelrange(yr,defystart) +end + +function sseq_get_rangepart(range,x,gap) + local pos = 0 + for j,rng in ipairs(range) do + if x >= rng.min and x <= rng.max then + return pos,pos+(rng.max+1-rng.min)*sseqentrysize + else + pos = pos+(rng.max+1-rng.min)*sseqentrysize+gap + end + end +end + +function sseq_getabsoluteposition(range,x,gap) + local pos = 0 + for j,rng in ipairs(range) do + if x >= rng.min and x <= rng.max then + return pos+sseqentrysize*(x-rng.min),false + end + pos = pos+(rng.max+1-rng.min)*sseqentrysize+gap + end +end + +function sseq_getcoords(x,y) + local xpos,xout,ypos,yout + xpos = sseq_getabsoluteposition(sseqxrange,x,sseqxgap) + ypos = sseq_getabsoluteposition(sseqyrange,y,sseqygap) + return xpos, ypos +end + +function sseq_grid_none() +end + +function sseq_grid_crossword(x,y,width,height) + tex.print("\\pgfsetlinewidth{"..sseqgridstrokethickness.."sp}") + tex.print("\\pgfpathgrid[stepx="..sseqentrysize.."sp,stepy="..sseqentrysize.."sp]{\\pgfpointorigin}{\\pgfpoint{"..width*sseqentrysize.."sp}{"..height*sseqentrysize.."sp}}") + tex.print("\\pgfusepath{stroke}") +end + +function sseq_grid_go(x,y,width,heigh) + tex.print("\\pgfsetlinewidth{"..sseqgridstrokethickness.."sp}") + tex.print("\\pgftransformxshift{"..(sseqentrysize/2).."sp}") + tex.print("\\pgftransformyshift{"..(sseqentrysize/2).."sp}") + tex.print("\\pgfpathgrid[stepx="..sseqentrysize.."sp,stepy="..sseqentrysize.."sp]{\\pgfpoint{"..(-sseqentrysize/2).."sp}{"..(-sseqentrysize/2).."sp}}{\\pgfpoint{"..(width*sseqentrysize-sseqentrysize/2).."sp}{"..(height*sseqentrysize-sseqentrysize/2).."sp}}") + tex.print("\\pgfusepath{stroke}") +end + +function sseq_grid_dots(x,y,width,height) + tex.print("\\pgfsetlinewidth{1pt}") + tex.print("\\pgfsetdash{{1pt}{"..(sseqentrysize-65536).."sp}}{"..(sseqentrysize/2+32768).."sp}") + tex.print("\\pgftransformxshift{"..(sseqentrysize/2).."sp}") + tex.print("\\pgftransformyshift{"..(sseqentrysize/2).."sp}") + tex.print("\\pgfpathgrid[stepx="..sseqentrysize.."sp,stepy="..sseqentrysize.."sp]{\\pgfpoint{"..(-sseqentrysize/2).."sp}{"..(-sseqentrysize/2).."sp}}{\\pgfpoint{"..(width*sseqentrysize-sseqentrysize/2).."sp}{"..(height*sseqentrysize-sseqentrysize/2).."sp}}") + tex.print("\\pgfusepath{stroke}") +end + +function sseq_grid_chess(x,y,width,height) + tex.print("\\pgfsetcolor{sslightgr}") + if math.mod(x+y, 2) == 1 then -- invert everything by first drawing a solid gray rectangle + -- and then draw the grid in white. This way, even bidegree + -- is always white. + tex.print("\\pgfpathrectangle{\\pgfpoint{0sp}{0sp}}{\\pgfpoint{" + ..(width*sseqentrysize).."sp}{"..(height*sseqentrysize).."sp}}") + tex.print("\\pgfusepath{fill}") + tex.print("\\pgfsetcolor{white}") + end + + tex.print("\\pgfsetlinewidth{"..sseqentrysize.."sp}") + + tex.print("\\pgfsetdash{{"..sseqentrysize.."sp}{"..sseqentrysize.."sp}}{"..sseqentrysize.."sp}") + + + tex.print("\\pgftransformxshift{"..(sseqentrysize/2).."sp}") + tex.print("\\pgftransformyshift{"..(sseqentrysize/2).."sp}") + tex.print("\\pgfpathgrid[stepx="..(sseqentrysize*2).."sp,stepy="..(sseqentrysize*2).."sp]{\\pgfpoint{"..(-sseqentrysize/2).."sp}{"..(-sseqentrysize/2).."sp}}{\\pgfpoint{"..(width*sseqentrysize-sseqentrysize/2).."sp}{"..(height*sseqentrysize-sseqentrysize/2).."sp}}") + tex.print("\\pgfusepath{stroke}") +end + +function sseq_drawgrid() -- draws the background grid. This seems like pgf patterns are made + -- for this purpose, but you can't specify a phase for patterns, + -- so they are useless except for ornamental purposes. + local xmin,ymin,width,heigt + for x,xrng in ipairs(sseqxrange) do + for y,yrng in ipairs(sseqyrange) do + xmin, ymin = sseq_getcoords(xrng.min,yrng.min) + tex.print("\\begin{pgfscope}") + tex.print("\\pgftransformshift{\\pgfpoint{"..xmin.."sp}{"..ymin.."sp}}") + width = (xrng.max+1)-xrng.min + height = (yrng.max+1)-yrng.min + sseqgriddrawer(xrng.min,yrng.min,width,height) + tex.print("\\end{pgfscope}") + end + end +end + +-- A label list has the form x1;x2;...;xn,y1;y2;...;yn,... where x1 etc are labels +-- A label may contain the placeholders: +-- &n = actual coordinate +-- &c = number of chunk (begin with 0) +-- &i = index within the chunk (begin with 0) + +function sseq_parse_label_list(s) + local res = {} + local chunk = 0 + local index + + for rng in string.gfind(s.."," , "([^,]*),") do + res[chunk] = {} + index = 0 + for label in string.gfind(rng..";", "([^;]*);") do + res[chunk][index] = label + index = index+1 + end + chunk = chunk+1 + end + return res +end + +function sseq_format_label(label, n,c,i) + local res + res = string.gsub(label,"&n",n) + res = string.gsub(res,"&c",c) + res = string.gsub(res,"&i",i) + res = string.gsub(res,"&&","&") + return res +end + +function sseq_label_fromlist(n,c,i,list) +-- will return list[c][i] unless this is out of range, then take the last one given + local chunks = #list + local chunklen + local chunk + if list[0] then chunks = chunks+1 else return "" end + chunk = list[math.min(chunks-1,c)] + chunklen = #chunk + if chunk[0] then chunklen = chunklen+1 end + return sseq_format_label(chunk[math.min(chunklen-1,i)],n,c,i) +end + + +function sseq_draw_horizontal_labels(range) + local k + + if sseqxtep == 0 then return end -- old-fashioned way of disabling labels + for c,rng in ipairs(range) do + k=0 + for i=rng.min,rng.max,sseqxstep do + x = sseq_getcoords(i,0) + label = sseq_label_fromlist(i,c-1,k,sseqxlabels) + -- bug fix with bounding box sizes in pgf +-- tex.print("\\sbox\\sseq@labelbox{\\strut\\ensuremath{"..label.."}}") +-- tex.print("\\dimen0=\\ht\\sseq@labelbox") +-- tex.print("\\advance\\dimen0 by \\dp\\sseq@labelbox") +-- tex.print("\\pgf@protocolsizes{0pt}{-\\dimen0}") + tex.print("\\pgftext[top,at=\\pgfpoint{"..(x+sseqentrysize/2).."sp}{0sp}]{\\ensuremath{\\strut "..label.."}}") + k=k+sseqxstep + end + end +end + +function sseq_draw_vertical_labels(range) + local k + + if sseqystep == 0 then return end -- old-fashioned way of disabling labels + for c,rng in ipairs(range) do + k=0 + for i=rng.min,rng.max,sseqystep do + _,y = sseq_getcoords(0,i) + label = sseq_label_fromlist(i,c,k,sseqylabels) + tex.print("\\pgftext[right,at=\\pgfpoint{-2pt}{"..(y+sseqentrysize/2).."sp}]{\\ensuremath{"..label.."}}") + k=k+sseqystep + end + end +end + + +function sseq_drawlabels() + sseq_draw_horizontal_labels(sseqxrange) + sseq_draw_vertical_labels(sseqyrange) +end + +function sseq_getdroplist(x,y) + return sseqobject[x] and sseqobject[x][y] +end + +function sseq_openposition() + local l = sseq_getdroplist(sseqposx,sseqposy) + if not l then + error(string.format("sseq: cannot open position (%d,%d): nothing dropped yet",sseqposx,sseqposy)) + elseif #l ~= 1 then + error(string.format("sseq: cannot open position (%d,%d): multiple drops",sseqposx,sseqposy)) + else + sseqcurrentindex = {sseqposx,sseqposy,1} + end +end + +function sseq_assert_source() + sseq_flush_connection() + if not sseqcurrentindex then + sseq_openposition() + end +end + +function sseq_finish_pos() + sseq_flush_connection() + if sseqcurrentindex then + sseq_conclude_connection() + sseqpreviousindex, sseqcurrentindex = sseqcurrentindex,nil + end +end + +function sseq_drop_and_open(x,y) + if not sseqobject[x] then sseqobject[x] = {} end + if not sseqobject[x][y] then sseqobject[x][y] = {} end + table.insert(sseqobject[x][y],{}) + sseqcurrentindex = {x,y,#sseqobject[x][y]} +end + +function sseq_drop_object(x,y,shape,pathusage,content,col) + local obj + sseq_finish_pos() + sseq_drop_and_open(x,y) + obj = sseqobject[x][y][sseqcurrentindex[3]] + obj.code = content + obj.color = col + obj.nodetype = shape + + sseq_conclude_connection() + -- now do the optimizations such as \bullet -> drawn black circle etc + if (pathusage == "fill") or (obj.code == "\\bullet ") then + if (obj.nodetype == "circle") or (obj.code == "\\bullet ") then + obj.nodetype = "circle" + obj.cmd = "\\pgfsetfillcolor{%s}\\pgfpathqcircle{2pt}\\pgfusepathqfill" + obj.radius = 131072 -- 2pt in sp + obj.wd,obj.ht = 262144,262144 -- 4pt in sp + else + obj.cmd = "\\pgfsetfillcolor{%s}\\pgfsys@rect{-2pt}{-2pt}{4pt}{4pt}\\pgfsys@fill" + obj.wd,obj.ht = 262144,262144 + obj.radius = 370727 + end + elseif(obj.code == "\\square ") then + obj.nodetype="rectangle" + obj.cmd = "\\pgfsetstrokecolor{%s}\\pgfsys@rect{-2pt}{-2pt}{4pt}{4pt}\\pgfsys@stroke" + obj.wd,obj.ht = 262144,262144 + obj.radius = 370727 + else + obj.cmd = "\\pgfsetstrokecolor{%s}\\pgfsetfillcolor{white}"..string.format("\\pgfnode{%s}{center}{\\color{%%s}\\ensuremath{%s}}{}{\\pgfusepath{fill,%s}}",obj.nodetype,obj.code,pathusage) + tex.print (string.format("\\setbox%d=\\hbox{\\pgfinterruptpicture\\ensuremath{%s}\\endpgfinterruptpicture}",sseqboxno,obj.code)) + tex.print("\\directlua0{sseq_register_size()}") + end +end + +function sseq_drop_extension(shape,pathusage,col) + local obj,refobj + sseq_assert_source() + table.insert(sseqobject[sseqposx][sseqposy],{}) + obj = sseqobject[sseqposx][sseqposy][#sseqobject[sseqposx][sseqposy]] + obj.code = "" -- no TeX code to typeset + obj.extends = sseqcurrentindex[3] + obj.color = col + obj.nodetype = shape + refobj = sseqobject[sseqcurrentindex[1]][sseqcurrentindex[2]][sseqcurrentindex[3]] + + sseqcurrentindex[3] = #sseqobject[sseqposx][sseqposy] + sseq_conclude_connection() + + if (shape=="circle") then + obj.radius = refobj.radius+65536 -- add 1pt in sp + obj.wd,obj.ht = 2*obj.radius,2*obj.radius + obj.cmd = "\\pgfsetstrokecolor{%s}\\pgfpathqcircle{"..obj.radius.."sp}\\pgfusepath{stroke,"..pathusage.."}" + else + obj.wd,obj.ht = refobj.wd+131072,refobj.ht +131072 -- add 1 pt at each side + obj.radius = 0.5*math.sqrt(obj.wd*obj.wd+obj.ht*obj.ht) + obj.cmd = "\\pgfsetstrokecolor{%s}\\pgfsetshapeinnerxsep{"..(.5*obj.wd).."sp}\\pgfsetshapeinnerysep{"..(.5*obj.ht).."sp}\\pgfnode{rectangle}{center}{}{}{\\pgfusepath{stroke,"..pathusage.."}}" + end +end + +function sseq_register_size() + local currobj = sseqobject[sseqcurrentindex[1]][sseqcurrentindex[2]][sseqcurrentindex[3]] + currobj.wd = tex.wd[sseqboxno] + currobj.ht = (tex.ht[sseqboxno]+tex.dp[sseqboxno]) + currobj.dp = tex.dp[sseqboxno] + currobj.radius = 0.5*math.sqrt(currobj.wd*currobj.wd+currobj.ht*currobj.ht) +end + +function sseq_drop_object_here(shape,pathusage,content,col) + sseq_drop_object(sseqposx,sseqposy,shape,pathusage,content,col) +end + +function sseq_bullstring(x,y,n,col) + if n==0 then return end + sseq_drop_object_here("circle","fill","\\bullet",col) + for i=2,n do + sseq_move(x,y) + sseq_drop_object_here("circle","fill","\\bullet",col) + sseq_late_connection("","",col,false,false) + end +end + +function sseq_moveto(x,y) + sseq_conclude_connection() + sseq_finish_pos() + sseqposx = x + sseqposy = y +end + +function sseq_grayout(col) + sseq_assert_source() + sseqobject[sseqcurrentindex[1]][sseqcurrentindex[2]][sseqcurrentindex[3]].color = col + for _,conn in pairs(sseqconnection) do + if (conn.from[1] == sseqcurrentindex[1] and conn.from[2] == sseqcurrentindex[2] and conn.from[3] == sseqcurrentindex[3]) or (conn.to[1] == sseqcurrentindex[1] and conn.to[2] == sseqcurrentindex[2] and conn.to[3] == sseqcurrentindex[3]) then + conn.color = col + end + end +end + +function sseq_move(x,y) + sseq_moveto(sseqposx+x,sseqposy+y) +end + +function stringtolist(pref,name) + local res = {} + for i,p in ipairs(pref) do table.insert(res,p) end + for w in string.gfind(name,"%w+") do + table.insert(res,w) + end + table.sort(res) + return res +end + +function sseq_set_global_name(name) + local namestring = table.concat(name) + sseq_assert_source() + if sseqname[namestring] then + error("sseq: duplicate name "..namestring) + else + sseqname[namestring] = {sseqcurrentindex[1],sseqcurrentindex[2],sseqcurrentindex[3]} + end +end + +function sseq_global_name(name) + return stringtolist(sseqprefix,name) +end + +function sseq_name(name) + sseq_set_global_name(sseq_global_name(name)) +end + +function sseq_global_goto(name) + local namestring = table.concat(name) + sseq_conclude_connection() + sseq_finish_pos() + if not sseqname[namestring] then + error("sseq: goto name does not exist: "..namestring) + else + sseqcurrentindex = { sseqname[namestring][1],sseqname[namestring][2],sseqname[namestring][3] } + sseqposx,sseqposy = sseqname[namestring][1], sseqname[namestring][2] + end +end + +function sseq_abs_goto(name) + sseq_global_goto(stringtolist({},name)) +end + +function sseq_prefix(pref) + sseqprefix = stringtolist(sseqprefix,pref) +end + +function sseq_reset_prefix() + sseqprefix = {} +end + +function sseq_goto(name) + sseq_global_goto(sseq_global_name(name)) +end + +function sseq_flush_connection() +end + +function sseq_conclude_connection() + if not sseqopenconnection then return end + if not sseqcurrentindex then + sseq_openposition() + end + sseqopenconnection.to = { sseqcurrentindex[1],sseqcurrentindex[2],sseqcurrentindex[3] } + table.insert(sseqconnection,sseqopenconnection) + sseqopenconnection = nil +end + +-- immediately register a connection between sseqpreviousindex and sseqcurrentindex +function sseq_late_connection(dash,bending,col,sourcevoid,targetvoid) + local newconn + + sseq_flush_connection() -- finish previous connection + if not targetvoid then sseq_assert_source() end + if (not sseqpreviousindex) or (not targetvoid and (sseqpreviousindex[3] == 0)) then + error("sseq: connection without well-defined source") + end + newconn = { color = col, dashing = dash } + if(bending ~= "") then newconn.curving = bending end + if sourcevoid then + newconn.from = {sseqpreviousindex[1],sseqpreviousindex[2],0} + else + newconn.from = {sseqpreviousindex[1],sseqpreviousindex[2],sseqpreviousindex[3]} + end + if targetvoid then + newconn.to = {sseqposx,sseqposy,0} + else + newconn.to = {sseqcurrentindex[1],sseqcurrentindex[2],sseqcurrentindex[3]} + end + table.insert(sseqconnection,newconn) +end + +function sseq_void_line(dash,bending,col,x,y) + local newconn = { color = col, dashing = dash } + + if(bending ~= "") then newconn.curving = bending end + sseq_assert_source(); + newconn.from = {sseqcurrentindex[1],sseqcurrentindex[2],sseqcurrentindex[3]} + newconn.to = {sseqcurrentindex[1]+x,sseqcurrentindex[2]+y,0} + table.insert(sseqconnection,newconn) +end + +function sseq_open_connection(dash,bending,col,x,y) + local newconn = { color = col, dashing = dash } + + if(bending ~= "") then newconn.curving = bending end + sseq_assert_source(); sseq_finish_pos() + newconn.from = {sseqpreviousindex[1],sseqpreviousindex[2],sseqpreviousindex[3]} + sseqopenconnection = newconn +end + +function sseq_add_arrow(fromto,type) + if sseqopenconnection then + sseqopenconnection[fromto] = type + else + sseqconnection[#sseqconnection][fromto] = type + end +end + +function sseq_drop_label(p,col,label) + sseq_assert_source() + table.insert(sseqlabel,{x = sseqcurrentindex[1], y = sseqcurrentindex[2], n = sseqcurrentindex[3], + color = col, code = label, pos = p}) +end + + +function sseq_pack_diagonal(i,n) + return sseqentrysize/2+sseqentrysize*(n-i)/4, + sseqentrysize/2-sseqentrysize*(n-i)/4 +end + +function sseq_pack_horizontal(i,n) + return sseqentrysize/2+sseqentrysize*(i-1)/4, + sseqentrysize/2 +end +function sseq_pack_vertical(i,n) + return sseqentrysize/2, + sseqentrysize/2-sseqentrysize*(n-i)/4 +end + +sseqautopackdata = { {{.5,.5}}, -- one + {{.25,.75},{.75,.25}}, -- two + {{.167,.833},{.5,.5},{.833,.167}}, -- three + {{.167,.75},{.389,.25},{.611,.75},{.833,.25}} -- four + } + +function sseq_pack_auto(i,n) -- return offset of the ith square out of n. + if n > 4 then return sseq_pack_diagonal(i,n) end + dat = sseqautopackdata[n][i] + return dat[1]*sseqentrysize,dat[2]*sseqentrysize + +end + +function sseq_position_object_list(x,y,list) + local absx,absy = sseq_getcoords(x,y) -- the lower left corner of the square + local numobj = #list + local j = 1 + + if not absx or not absy then return end -- outside clipping area -- don't draw. + + for i,obj in ipairs(list) do + if (obj.extends) then numobj = numobj-1 end + end + + for i,obj in ipairs(list) do + if (obj.extends) then + obj.posx,obj.posy = list[obj.extends].posx,list[obj.extends].posy + else + obj.posx, obj.posy = sseqpacking(j,numobj) + obj.posx = obj.posx + absx + obj.posy = obj.posy + absy + j = j+1 + end + if not obj.color then obj.color = "black" end + end +end + +function sseq_position_objects() + for x,ylist in pairs(sseqobject) do + for y,olist in pairs(ylist) do + sseq_position_object_list(x,y,olist) + end + end +end + +function sseq_dump_translation(x,y) + tex.print("\\pgfsys@transformshift{"..(x-sseqcurrabsx).."sp}{"..(y-sseqcurrabsy).."sp}") + sseqcurrabsx,sseqcurrabsy = x,y +end + +function sseq_dump_object(x,y,obj) + if not obj.posx or not obj.posy then return end + sseq_dump_translation(obj.posx,obj.posy) + tex.print(string.format(obj.cmd,obj.color,obj.color)) +end + +-- +-- return the intersection of the vector to (fromx, fromy) with the boundary of obj +-- +function sseq_correct_line_end(obj,fromx,fromy,curving) + local distsq,posx,posy,deltax,deltay,dirx,diry + posx,posy = obj.posx,obj.posy + + dirx = posx-fromx + diry = posy-fromy + + if(curving) then + dirx,diry = dirx/2-curving*diry,diry/2+curving*dirx + end + + if obj.nodetype == "circle" then + dist = math.sqrt(dirx*dirx + diry*diry) + return posx - obj.radius*(dirx)/dist, + posy - obj.radius*(diry)/dist + else + deltax = dirx/diry*obj.ht/2 -- no problem with infinity in LUA + deltay = diry/dirx*obj.wd/2 + if(math.abs(deltax) <= obj.wd/2) then -- boundary point on one of the horizontal lines + if fromy > posy then + return posx + deltax, posy + obj.ht/2 + else + return posx - deltax, posy - obj.ht/2 + end + else + if fromx > posx then + return posx + obj.wd/2, posy + deltay + else + return posx - obj.wd/2, posy - deltay + end + end + end +end + +-- +-- return the intersection of the vector from (x,y) to the clipped object at +-- coordinate (clipi,clipj) with the boundary of the grid segment containing (i,j) +-- +function sseq_fix_clipped_connection(clipi,clipj,i,j,x,y) + local minx,maxx,miny,maxy,deltax,deltay + + minx,maxx = sseq_get_rangepart(sseqxrange,i,sseqxgap) + miny,maxy = sseq_get_rangepart(sseqyrange,j,sseqygap) + minx = minx - sseqxleak + maxx = maxx + sseqxleak + miny = miny - sseqyleak + maxy = maxy + sseqyleak + + deltax = 1e10*(clipi-i) + deltay = 1e10*(clipj-j) + -- compute intersection of the vector (deltax, deltay) based at (x,y) + -- with the rectangle minx,miny,maxx,maxy + if(x+deltax > maxx) then deltax,deltay = maxx-x, deltay * (maxx-x)/deltax end + if(x+deltax < minx) then deltax,deltay = minx-x, deltay*(minx-x)/deltax end + if(y+deltay > maxy) then deltax,deltay = deltax * (maxy-y)/deltay, maxy-y end + if(y+deltay < miny) then deltax,deltay = deltax * (miny-y)/deltay, miny-y end + return x+deltax,y+deltay +end + +function sseq_dump_connection(conn) + local fromx, fromy, tox, toy, ctrlx,ctrly, helpx, helpy + local fromobj,toobj + + -- possibilities: * from, to not in the displayed range + -- * from[3] = 0 or to[3] = 0 (void line) + -- or any combination. + + -- if source or target is clipped, will make it a void line + -- + fromx,fromy = sseq_getcoords(conn.from[1],conn.from[2]) + tox,toy = sseq_getcoords(conn.to[1],conn.to[2]) + + if ((not fromx) or (not fromy) or (conn.from[3] == 0)) + and ((not tox) or (not toy) or (conn.to[3] == 0)) then + -- forget it -- source and target are clipped and/or void + return + end + + if ((not fromx) or (not fromy)) then -- source clipped: we can be sure the target is regular + fromx,fromy = sseq_fix_clipped_connection(conn.from[1],conn.from[2],conn.to[1],conn.to[2],tox,toy) + toobj = sseqobject[conn.to[1]][conn.to[2]][conn.to[3]] + tox,toy = toobj.posx, toobj.posy + elseif ((not tox) or (not toy)) then -- target clipped: we can be sure the source is regular + tox,toy = sseq_fix_clipped_connection(conn.to[1],conn.to[2],conn.from[1],conn.from[2],fromx,fromy) + fromobj = sseqobject[conn.from[1]][conn.from[2]][conn.from[3]] + fromx,fromy = fromobj.posx, fromobj.posy + elseif conn.from[3] == 0 then -- source not clipped but void + toobj = sseqobject[conn.to[1]][conn.to[2]][conn.to[3]] + fromx = fromx+(toobj.posx-tox) + fromy = fromy+(toobj.posy-toy) + tox,toy = toobj.posx, toobj.posy + elseif conn.to[3] == 0 then -- target not clipped but void + fromobj = sseqobject[conn.from[1]][conn.from[2]][conn.from[3]] + tox = tox+(fromobj.posx-fromx) + toy = toy+(fromobj.posy-fromy) + fromx,fromy = fromobj.posx, fromobj.posy + else -- both source and target regular + fromobj = sseqobject[conn.from[1]][conn.from[2]][conn.from[3]] + fromx,fromy = fromobj.posx, fromobj.posy + toobj = sseqobject[conn.to[1]][conn.to[2]][conn.to[3]] + tox,toy = toobj.posx, toobj.posy + end + + + if fromobj then -- we have to be more careful where it ends + fromx,fromy = sseq_correct_line_end(fromobj,tox,toy,conn.curving) + end + if toobj then + tox,toy = sseq_correct_line_end(toobj,fromx,fromy,conn.curving and -conn.curving) + end + + if conn.curving then + ctrlx = tox/2+fromx/2-conn.curving*(toy-fromy) + ctrly = toy/2+fromy/2+conn.curving*(tox-fromx) + end + + if conn.arrowfrom or conn.arrowto or conn.curving then -- got to use slow code + tex.print("\\pgfsetdash{"..conn.dashing.."}{0pt}") + tex.print("\\pgfsetstrokecolor{"..conn.color.."}") + if (fromx and fromy) then + if (tox and toy) then + tex.print(string.format("\\pgfpathmoveto{\\pgfpoint{%dsp}{%dsp}}",fromx,fromy)) + if conn.curving then + tex.print(string.format("\\pgfpathquadraticcurveto{\\pgfpoint{%dsp}{%dsp}}{\\pgfpoint{%dsp}{%dsp}}",ctrlx,ctrly,tox,toy)) + else + tex.print(string.format("\\pgfpathlineto{\\pgfpoint{%dsp}{%dsp}}",tox,toy)) + end + if conn.arrowfrom then tex.print("\\pgfsetarrowsstart{"..conn.arrowfrom.."}")end + if conn.arrowto then tex.print("\\pgfsetarrowsend{"..conn.arrowto.."}") end + tex.print("\\pgfusepath{stroke}") + end + end + else + tex.print("\\pgfsetdash{"..conn.dashing.."}{0pt}") + tex.print("\\pgfsetstrokecolor{"..conn.color.."}") + if (fromx and fromy) then + if (tox and toy) then + tex.print(string.format("\\pgfsys@moveto{%dsp}{%dsp}",fromx,fromy)) + tex.print(string.format("\\pgfsys@lineto{%dsp}{%dsp}",tox,toy)) + tex.print("\\pgfsys@stroke") + end + end + end +end + +local labelpositioninrect = { U = {0,.5,"bottom"}, + UL = {-.5,.5,"bottom,right"}, + LU = {-.5,.5,"bottom,right"}, + L = {-.5,0,"right"}, + DL = {-.5,-.5,"top,right"}, + LD = {-.5,-.5,"top,right"}, + D = {0,-.5,"top"}, + DR = {.5,-.5,"top,left"}, + RD = {.5,-.5,"top,left"}, + R = {.5,0,"left"}, + UR = {.5,.5,"bottom,left"}, + RU = {.5,.5,"bottom,left"} } +local labelpositionincirc = { U = {0,1,"bottom"}, + UL = {-.71,.71,"bottom,right"}, + LU = {-.71,.71,"bottom,right"}, + L = {-1,0,"right"}, + DL = {-.71,-.71,"top,right"}, + LD = {-.71,-.71,"top,right"}, + D = {0,-1,"top"}, + DR = {.71,-.71,"top,left"}, + RD = {.71,-.71,"top,left"}, + R = {1,0,"left"}, + UR = {.71,.71,"bottom,left"}, + RU = {.71,.71,"bottom,left"} } + +function sseq_dump_label(label) + local labelledobj = sseqobject[label.x][label.y][label.n] + local posx,posy + tex.print("\\color{"..label.color.."}") + if labelledobj.nodetype == "circle" then + posx = labelledobj.posx+labelpositionincirc[label.pos][1]*labelledobj.radius + posy = labelledobj.posy+labelpositionincirc[label.pos][2]*labelledobj.radius + sseq_dump_translation(posx,posy) + tex.print(string.format("\\pgftext[%s]{\\ensuremath{%s}}",labelpositioninrect[label.pos][3],label.code)) + else + posx = labelledobj.posx+labelpositioninrect[label.pos][1]*labelledobj.wd + posy = labelledobj.posy+labelpositioninrect[label.pos][2]*labelledobj.ht + sseq_dump_translation(posx,posy) + tex.print(string.format("\\pgftext[%s]{\\ensuremath{%s}}",labelpositioninrect[label.pos][3],label.code)) + end +end + +-- Write out all the pgf code to produce the chart +function sseq_dump_code() + if (not sseqxleak) then sseqxleak = 0.3*sseqxgap end + if (not sseqyleak) then sseqyleak = 0.3*sseqygap end + tex.print("\\makeatletter") + tex.print("\\pgfset{inner sep=0pt}") + -- connections + for _,conn in pairs(sseqconnection) do + sseq_dump_connection(conn) + end + -- objects + tex.print("\\color{white}") -- background fill color + for x,ylist in pairs(sseqobject) do + for y,olist in pairs(ylist) do + for z,obj in ipairs(olist) do + sseq_dump_object(x,y,obj) + end + end + end + -- labels + for _,label in pairs(sseqlabel) do + sseq_dump_label(label) + end + tex.print("\\makeatother") +end + -- cgit v1.2.3