open Pdfutil open Cpdferror type colspec = NoCol | RGB of float * float * float | Grey of float | CYMK of float * float * float * float type justification = Left | Right | Centre type drawops = | Rect of float * float * float * float | Bezier of float * float * float * float * float * float | Bezier23 of float * float * float * float | Bezier13 of float * float * float * float | To of float * float | Line of float * float | ClosePath | SetFill of colspec | SetStroke of colspec | SetLineThickness of float | SetLineCap of int | SetLineJoin of int | SetMiterLimit of float | SetDashPattern of float list * float | Matrix of Pdftransform.transform_matrix | Qq of drawops list | Fill | FillEvenOdd | Stroke | FillStroke | FillStrokeEvenOdd | Clip | ClipEvenOdd | FormXObject of float * float * float * float * string * drawops list | Use of string | ImageXObject of string * Pdf.pdfobject | Image of string * string option | NewPage | Opacity of float | SOpacity of float | FontPack of string * Cpdfembed.cpdffont * (int, unit) Hashtbl.t | Font of string * float | TextSection of drawops list | Text of string | SpecialText of string | Para of justification * float * string | Newline | Leading of float | CharSpace of float | WordSpace of float | TextScale of float | RenderMode of int | Rise of float | STag of string | EndSTag (*let rec string_of_drawop = function | Qq o -> "Qq (" ^ string_of_drawops o ^ ")" | FormXObject (_, _, _, _, _, o) -> "FormXObject (" ^ string_of_drawops o ^ ")" | TextSection o -> "TextSection (" ^ string_of_drawops o ^ ")" | Rect _ -> "Rect" | Bezier _ -> "Bezier" | Bezier23 _ -> "Bezier23" | Bezier13 _ -> "Bezier13" | To _ -> "To" | Line _ -> "Line" | ClosePath -> "ClosePath" | SetFill _ -> "SetFill" | SetStroke _ -> "SetStroke" | SetLineThickness _ -> "SetLineThickness" | SetLineCap _ -> "SetLineCap" | SetLineJoin _ -> "SetLineJoin" | SetMiterLimit _ -> "SetMiterLimit" | SetDashPattern _ -> "SetDashPattern" | Matrix _ -> "SetMatrix" | Fill -> "Fill" | FillEvenOdd -> "FillEvenOdd" | Stroke -> "Stroke" | FillStroke -> "FillStroke" | FillStrokeEvenOdd -> "FillStrokeEvenOdd" | Clip -> "Clip" | ClipEvenOdd -> "ClipEvenOdd" | Use _ -> "Use" | ImageXObject _ -> "ImageXObject" | Image _ -> "Image" | NewPage -> "NewPage" | Opacity _ -> "Opacity" | SOpacity _ -> "SOpacity" | FontPack (n, _, _) -> "FontPack " ^ n ^ " " | Font (f, _) -> "Font " ^ f ^ " " | Text _ -> "Text" | SpecialText _ -> "SpecialText" | Newline -> "Newline" | Leading _ -> "Leading" | CharSpace _ -> "CharSpace" | WordSpace _ -> "WordSpace" | TextScale _ -> "TextScale" | RenderMode _ -> "RenderMode" | Rise _ -> "Rise" and string_of_drawops l = fold_left (fun x y -> x ^ " " ^ y) "" (map string_of_drawop l)*) (* Per page / xobject resources *) type res = {images : (string, (string * int)) Hashtbl.t; (* (name, (pdf name, objnum)) *) extgstates : ((string * float), string) Hashtbl.t; (* (kind, value), name *) fonts : (string * int, (string * int)) Hashtbl.t; (* (font, (objnum, pdf name)) *) form_xobjects : (string, (string * int)) Hashtbl.t; (* (name, (pdf name, objnum)) *) mutable page_names : string list; mutable time : Cpdfstrftime.t; mutable current_fontpack : string * Cpdfembed.t; mutable current_fontpack_codepoints : (int, unit) Hashtbl.t; mutable font_size : float; mutable num : int} let default_fontpack = Cpdfembed.fontpack_of_standardfont (Pdftext.StandardFont (Pdftext.TimesRoman, Pdftext.WinAnsiEncoding)) let fontpacks = ref (null_hash ()) let empty_res () = {images = null_hash (); extgstates = null_hash (); fonts = null_hash (); form_xobjects = null_hash (); page_names = []; time = Cpdfstrftime.dummy; current_fontpack = ("Times-Roman", default_fontpack); current_fontpack_codepoints = null_hash (); font_size = 12.; num = 0} let resstack = ref [empty_res ()] let rescopy r = {r with images = Hashtbl.copy r.images; fonts = Hashtbl.copy r.fonts; extgstates = Hashtbl.copy r.extgstates; form_xobjects = Hashtbl.copy r.form_xobjects} let res () = try hd !resstack with _ -> error "graphics stack empty" let respush () = resstack := (rescopy (res ()))::!resstack let respop () = let n = (res ()).num in resstack := tl !resstack; (* not necessary, since names are isolated in the xobject, but it makes manual debugging of PDF files easier if we don't re-use numbers *) (res ()).num <- max n (res ()).num let fresh_name s = (res ()).num <- (res ()).num + 1; s ^ string_of_int (res ()).num (* At end of page, we keep things for which we have indirects - but ExtGStates aren't indirect, so they go. *) let reset_state () = Hashtbl.clear (res ()).extgstates(*; (res ()).page_names <- []*) let process_specials pdf endpage filename bates batespad num page s = let pairs = Cpdfaddtext.replace_pairs pdf endpage None filename bates batespad num page in Cpdfaddtext.process_text (res ()).time s pairs (* FIXME cache (just for paragraph) *) let font_widths f fontsize = match f with | Pdftext.StandardFont (sf, encoding) -> Array.init 256 (fun x -> fontsize *. float_of_int (Pdfstandard14.textwidth false encoding sf (string_of_char (char_of_int x))) /. 1000.) | Pdftext.SimpleFont {fontmetrics = Some m} -> Array.map (fun x -> fontsize *. x /. 1000. ) m | _ -> raise (Pdf.PDFError "Cpdfdraw: Unsupported font") let runs_of_utf8 s = let identifier, fontpack = (res ()).current_fontpack in let codepoints = Pdftext.codepoints_of_utf8 s in let triples = option_map (Cpdfembed.get_char fontpack) codepoints in let collated = Cpdfembed.collate_runs triples in (* FIXME Efficiency: runs, cacheing *) let w = fold_left ( +. ) 0. (map (fun (charcode, _, font) -> let widths = font_widths font (res ()).font_size in widths.(charcode)) triples) in let output = flatten (map (fun l -> if l = [] then [] else let f, n = match l with (_, n, f)::_ -> f, n | _ -> assert false in let fontname = fst (Hashtbl.find (res ()).fonts (identifier, n)) in let charcodes = map (fun (c, _, _) -> char_of_int c) l in [Pdfops.Op_Tf (fontname, (res ()).font_size); Pdfops.Op_Tj (implode charcodes)]) collated) in (output, w) let extgstate kind v = try Hashtbl.find (res ()).extgstates (kind, v) with Not_found -> let n = fresh_name "/G" in Hashtbl.replace (res ()).extgstates (kind, v) n; n let read_resource pdf n res = match Pdf.lookup_direct pdf n res with | Some (Pdf.Dictionary d) -> d | _ -> [] let update_resources pdf old_resources = let gss_resources = map (fun ((kind, v), n) -> (n, Pdf.Dictionary [(kind, Pdf.Real v)])) (list_of_hashtbl (res ()).extgstates) in let select_resources t = option_map (fun (_, (n, o)) -> if mem n (res ()).page_names then Some (n, Pdf.Indirect o) else None) (list_of_hashtbl t) in let update = fold_right (fun (k, v) d -> add k v d) in let new_gss = update gss_resources (read_resource pdf "/ExtGState" old_resources) in let new_xobjects = update (select_resources (res ()).form_xobjects @ select_resources (res ()).images) (read_resource pdf "/XObject" old_resources) in let new_fonts = update (select_resources (res ()).fonts) (read_resource pdf "/Font" old_resources) in let add_if_non_empty dict name newdict = if newdict = Pdf.Dictionary [] then dict else Pdf.add_dict_entry dict name newdict in add_if_non_empty (add_if_non_empty (add_if_non_empty old_resources "/XObject" (Pdf.Dictionary new_xobjects)) "/ExtGState" (Pdf.Dictionary new_gss)) "/Font" (Pdf.Dictionary new_fonts) let mcidr = ref ~-1 let mcid () = (incr mcidr; !mcidr) let mcpage = ref ~-1 (* The structure data, as it is created, in flat form. Later on, this will be reconstructed into a structure tree. *) type structdata = | StDataBeginTree of string | StDataEndTree | StDataMCID of string * int * string option | StDataPage of int let structdata = ref [] (* TODO: Use Uuseg for proper unicode segmentation. *) let format_paragraph j w s = let ss = String.split_on_char ' ' s in let rs_and_widths = ref (map runs_of_utf8 ss) in let space_runs, space_width = runs_of_utf8 " " in let remaining = ref w in let allops = ref [] in let ops = ref [] in let justify ops = match j with | Left -> ops | Right -> [Pdfops.Op_Td (~-.(!remaining), 0.)] @ ops @ [Pdfops.Op_Td (!remaining, 0.)] | Centre -> [Pdfops.Op_Td (~-.(!remaining) /. 2., 0.)] @ ops @ [Pdfops.Op_Td (!remaining /. 2., 0.)] in while !rs_and_widths <> [] do let word, word_width = hd !rs_and_widths in if !remaining = w then (* If current line empty, output word. *) begin ops := rev word @ !ops; remaining := !remaining -. word_width; rs_and_widths := tl !rs_and_widths end else if word_width +. space_width <= !remaining then (* If current line not empty, and space for space char and word, emit them. *) begin ops := rev space_runs @ !ops; ops := rev word @ !ops; remaining := !remaining -. word_width -. space_width; rs_and_widths := tl !rs_and_widths end else (* If current line not empty, and not enough space, emit newline. *) begin allops =| rev (Pdfops.Op_T'::justify !ops); ops := []; remaining := w end done; allops =| rev (Pdfops.Op_T'::justify !ops); flatten (rev !allops) let rec ops_of_drawop struct_tree dryrun pdf endpage filename bates batespad num page = function | Qq ops -> [Pdfops.Op_q] @ ops_of_drawops struct_tree dryrun pdf endpage filename bates batespad num page ops @ [Pdfops.Op_Q] | Matrix m -> [Pdfops.Op_cm m] | Rect (x, y, w, h) -> [Pdfops.Op_re (x, y, w, h)] | Bezier (a, b, c, d, e, f) -> [Pdfops.Op_c (a, b, c, d, e, f)] | Bezier23 (a, b, c, d) -> [Pdfops.Op_v (a, b, c, d)] | Bezier13 (a, b, c, d) -> [Pdfops.Op_y (a, b, c, d)] | To (x, y) -> [Pdfops.Op_m (x, y)] | Line (x, y) -> [Pdfops.Op_l (x, y)] | SetFill x -> begin match x with | RGB (r, g, b) -> [Op_rg (r, g, b)] | Grey g -> [Op_g g] | CYMK (c, y, m, k) -> [Op_k (c, y, m, k)] | NoCol -> [] end | SetStroke x -> begin match x with | RGB (r, g, b) -> [Op_RG (r, g, b)] | Grey g -> [Op_G g] | CYMK (c, y, m, k) -> [Op_K (c, y, m, k)] | NoCol -> [] end | ClosePath -> [Pdfops.Op_h] | Fill -> [Pdfops.Op_f] | FillEvenOdd -> [Pdfops.Op_f'] | Stroke -> [Pdfops.Op_S] | FillStroke -> [Pdfops.Op_B] | FillStrokeEvenOdd -> [Pdfops.Op_B'] | Clip -> [Pdfops.Op_W; Pdfops.Op_n] | ClipEvenOdd -> [Pdfops.Op_W'; Pdfops.Op_n] | SetLineThickness t -> [Pdfops.Op_w t] | SetLineCap c -> [Pdfops.Op_J c] | SetLineJoin j -> [Pdfops.Op_j j] | SetMiterLimit m -> [Pdfops.Op_M m] | SetDashPattern (x, y) -> [Pdfops.Op_d (x, y)] | FormXObject (a, b, c, d, n, ops) -> create_form_xobject struct_tree dryrun a b c d pdf endpage filename bates batespad num page n ops; [] | Use n -> let pdfname = try fst (Hashtbl.find (res ()).form_xobjects n) with _ -> error ("Form XObject not found: " ^ n) in (res ()).page_names <- pdfname::(res ()).page_names; [Pdfops.Op_Do pdfname] | Image (s, t) -> let m = mcid () in if not dryrun then structdata := StDataMCID ("/Figure", m, t)::!structdata; let pdfname = try fst (Hashtbl.find (res ()).images s) with _ -> error ("Image not found: " ^ s) in (res ()).page_names <- pdfname::(res ()).page_names; (if struct_tree then [Pdfops.Op_BDC ("/Figure", Pdf.Dictionary ["/MCID", Pdf.Integer m])] else []) @ [Pdfops.Op_Do pdfname] @ (if struct_tree then [Pdfops.Op_EMC] else []) | ImageXObject (s, obj) -> Hashtbl.replace (res ()).images s (fresh_name "/I", Pdf.addobj pdf obj); [] | NewPage -> Pdfe.log ("NewPage remaining in graphic stream"); assert false | Opacity v -> [Pdfops.Op_gs (extgstate "/ca" v)] | SOpacity v -> [Pdfops.Op_gs (extgstate "/CA" v)] | FontPack (identifier, cpdffont, codepoints) -> (*Printf.printf "FontPack op: |%s|\n%!" identifier;*) let fontpack = match Hashtbl.find !fontpacks identifier with | (fontpack, _) -> (*Printf.printf "Cpdfdraw FontPack op: using existing fontpack |%s|\n%!" identifier;*) fontpack | exception Not_found -> (*Printf.printf "Cpdfdraw FontPack op: storing new fontpack |%s|\n%!" identifier;*) let fontpack = match cpdffont with | PreMadeFontPack fp -> (*Printf.printf "it's a pre-made font pack\n%!";*) fp | EmbedInfo {fontfile; fontname; encoding} -> let codepoints = map fst (list_of_hashtbl codepoints) in (*Printf.printf "%i codepoints to embed\n%!" (length codepoints);*) if codepoints = [] then default_fontpack else Cpdfembed.embed_truetype pdf ~fontfile ~fontname ~codepoints ~encoding | ExistingNamedFont -> error "-draw does not support using an existing named font" in Hashtbl.replace !fontpacks identifier (fontpack, codepoints); fontpack in let ns = map2 (fun font n -> try fst (Hashtbl.find (res ()).fonts (identifier, n)) with Not_found -> let o = if dryrun then 0 else Pdftext.write_font pdf font in let name = fresh_name "/F" in (*Printf.printf "Adding font %s as %s\n%!" identifier name;*) Hashtbl.replace (res ()).fonts (identifier, n) (name, o); name) (fst fontpack) (indx0 (fst fontpack)) in (res ()).page_names <- ns @ (res ()).page_names; [] | Font (identifier, size) -> (*Printf.printf "Cpdfdraw Font op: Changing to stored font %s\n%!" identifier;*) let fontpack, codepoints = Hashtbl.find !fontpacks identifier in (res ()).current_fontpack <- (identifier, fontpack); if dryrun then (res ()).current_fontpack_codepoints <- codepoints; (res ()).font_size <- size; [] | TextSection ops -> let m = mcid () in if not dryrun then structdata := StDataMCID ("/P", m, None)::!structdata; (if struct_tree then [Pdfops.Op_BDC ("/P", Pdf.Dictionary ["/MCID", Pdf.Integer m])] else []) @ [Pdfops.Op_BT] @ ops_of_drawops struct_tree dryrun pdf endpage filename bates batespad num page ops @ [Pdfops.Op_ET] @ (if struct_tree then [Pdfops.Op_EMC] else []) | Text s -> if dryrun then iter (fun c -> Hashtbl.replace (res ()).current_fontpack_codepoints c ()) (Pdftext.codepoints_of_utf8 s); fst (runs_of_utf8 s) | SpecialText s -> let s = process_specials pdf endpage filename bates batespad num page s in if dryrun then iter (fun c -> Hashtbl.replace (res ()).current_fontpack_codepoints c ()) (Pdftext.codepoints_of_utf8 s); fst (runs_of_utf8 s) | Para (j, w, s) -> if dryrun then iter (fun c -> Hashtbl.replace (res ()).current_fontpack_codepoints c ()) (Pdftext.codepoints_of_utf8 s); format_paragraph j w s | Leading f -> [Pdfops.Op_TL f] | CharSpace f -> [Pdfops.Op_Tc f] | WordSpace f -> [Pdfops.Op_Tw f] | TextScale f -> [Pdfops.Op_Tz f] | RenderMode i -> [Pdfops.Op_Tr i] | Rise f -> [Pdfops.Op_Ts f] | Newline -> [Pdfops.Op_T'] | STag s -> structdata =| StDataBeginTree s; [] | EndSTag -> structdata =| StDataEndTree; [] and ops_of_drawops struct_tree dryrun pdf endpage filename bates batespad num page drawops = flatten (map (ops_of_drawop struct_tree dryrun pdf endpage filename bates batespad num page) drawops) and create_form_xobject struct_tree dryrun a b c d pdf endpage filename bates batespad num page n ops = respush (); reset_state (); let data = Pdfio.bytes_of_string (Pdfops.string_of_ops (ops_of_drawops struct_tree dryrun pdf endpage filename bates batespad num page ops)) in let obj = Pdf.Stream {contents = (Pdf.Dictionary [("/Length", Pdf.Integer (Pdfio.bytes_size data)); ("/Subtype", Pdf.Name "/Form"); ("/Resources", update_resources pdf (Pdf.Dictionary [])); ("/BBox", Pdf.Array [Pdf.Real a; Pdf.Real b; Pdf.Real c; Pdf.Real d]) ], Pdf.Got data)} in respop (); Hashtbl.replace (res ()).form_xobjects n (fresh_name "/X", (if dryrun then 0 else Pdf.addobj pdf obj)) let minimum_resource_number pdf range = let pages = Pdfpage.pages_of_pagetree pdf in let pages_in_range = option_map2 (fun p n -> if mem n range then Some p else None) pages (indx pages) in let number_of_name s = match implode (rev (takewhile (function '0'..'9' -> true | _ -> false) (rev (explode s)))) with | "" -> None | s -> Some (int_of_string s) in let resource_names_page p = let names n = match Pdf.lookup_direct pdf n p.Pdfpage.resources with | Some (Pdf.Dictionary d) -> map fst d | _ -> [] in names "/XObject" @ names "/ExtGState" @ names "/Font" in match sort (fun a b -> compare b a) (option_map number_of_name (flatten (map resource_names_page pages_in_range))) with | [] -> 0 | n::_ -> n + 1 let rec contains_specials_drawop = function | SpecialText _ -> true | Qq l | TextSection l | FormXObject (_, _, _, _, _, l) -> contains_specials l | _ -> false and contains_specials l = List.exists contains_specials_drawop l let save_whole_stack () = map (fun r -> rescopy r) !resstack let restore_whole_stack r = resstack := r (* Mark as an artifact anything not already marked. *) let add_artifacts ops = let content = ref false in let artifact = ref false in let rec loop a = function | [] -> (* The end. Must end artifact if in artifact. *) if !artifact then rev (Pdfops.Op_EMC::a) else rev a | Pdfops.Op_BDC _ as h::t -> (* Entering content. If in artifact, must end artifact. *) let a' = if !artifact then h::Pdfops.Op_EMC::a else h::a in set content; clear artifact; loop a' t | Pdfops.Op_EMC as h::t -> (* Exiting content. *) clear content; loop (h::a) t | h::t -> (* A normal operation. If not in content or artifact must start artifact. *) let a' = if not (!content || !artifact) then (set artifact; h::Pdfops.Op_BMC "/Artifact"::a) else h::a in loop a' t in loop [] ops let draw_single ~struct_tree ~fast ~underneath ~filename ~bates ~batespad range pdf drawops = (res ()).num <- max (res ()).num (minimum_resource_number pdf range); let endpage = Pdfpage.endpage pdf in let pages = Pdfpage.pages_of_pagetree pdf in let ops = if contains_specials drawops then None else Some (ops_of_drawops struct_tree false pdf endpage filename bates batespad 0 (hd pages) drawops) in let ss = map2 (fun n p -> if mem n range then (match ops with | Some x -> x | None -> ops_of_drawops struct_tree false pdf endpage filename bates batespad n p drawops) else []) (ilist 1 endpage) pages in let pages = map3 (fun n p ops -> if not (mem n range) then p else let ops = if struct_tree then add_artifacts ops else ops in let page = {p with Pdfpage.resources = update_resources pdf p.Pdfpage.resources} in (if underneath then Pdfpage.prepend_operators else Pdfpage.postpend_operators) pdf ops ~fast page) (ilist 1 endpage) (Pdfpage.pages_of_pagetree pdf) ss in Pdfpage.change_pages true pdf pages (* Do a dry run of all the drawing to collect subset information. *) let dryrun ~struct_tree ~filename ~bates ~batespad range pdf chunks = let endpage = Pdfpage.endpage pdf in let pages = Pdfpage.pages_of_pagetree pdf in let r = save_whole_stack () in let saved_fontpacks = Hashtbl.copy !fontpacks in let pagenum = ref (hd range) in iter (fun chunk -> ignore (ops_of_drawops struct_tree true pdf endpage filename bates batespad !pagenum (hd pages) chunk); match range with | [x] when endpage > x -> pagenum := x + 1 | _ -> pagenum := endpage + 1) chunks; restore_whole_stack r; fontpacks := saved_fontpacks type st = StMCID of int | StItem of {kind : string; pageobjnum : int option; alt : string option; children : st list} (* Build a tree from the MCIDs and structure tree instructions gathered *) (*let make_structure_tree pdf items = (* Make map of page numbers to pageobjnums, and create a reference to keep track. *) let pagenum = ref 0 in let items_out = ref [] in let pageobjnums = let objnums = Pdf.page_reference_numbers pdf in combine (indx objnums) objnums in (* Process the items, making the st list tree data structure *) let process = function | StDataMCID (n, mcid, alt) -> items_out =| StItem {kind = n; alt; pageobjnum = lookup !pagenum pageobjnums; children = [StMCID mcid]} | StDataPage n -> pagenum := n | StDataBeginTree s -> () | StDataEndTree -> () in iter process items; !items_out*) let rec make_structure_tree pageobjnums pdf pagenum = function | [] -> [] | StDataMCID (n, mcid, alt)::t -> StItem {kind = n; alt; pageobjnum = lookup !pagenum pageobjnums; children = [StMCID mcid]}::make_structure_tree pageobjnums pdf pagenum t | StDataPage n::t -> pagenum := n; make_structure_tree pageobjnums pdf pagenum t | StDataBeginTree s::t -> make_structure_tree pageobjnums pdf pagenum t | StDataEndTree::t -> make_structure_tree pageobjnums pdf pagenum t let make_structure_tree pdf items = let pageobjnums = let objnums = Pdf.page_reference_numbers pdf in combine (indx objnums) objnums in make_structure_tree pageobjnums pdf (ref 0) items (* Write such a structure tree to a PDF. We have to make the objects and build the root and its /K. For now, we just have a root which contains everything else on one level. Later we will use StDataBeginTree / StDataEndTree to make more tree stuff. *) let write_structure_tree pdf st = let parentmap = ref [] in let add_parentmap pon this_objnum = match lookup pon !parentmap with | None -> parentmap =| (pon, [this_objnum]) | Some objnums -> parentmap := add pon (this_objnum::objnums) !parentmap in let struct_tree_root = Pdf.addobj pdf Pdf.Null in let items = map (function StItem {kind; pageobjnum; alt; children} -> let this_objnum = Pdf.addobj pdf Pdf.Null in let alt = match alt with | Some s -> [("/Alt", Pdf.String s)] | None -> [] in let page = match pageobjnum with | Some i -> [("/Pg", Pdf.Indirect i)] | None -> [] in let this_obj = Pdf.Dictionary (alt @ page @ [("/S", Pdf.Name kind); ("/P", Pdf.Indirect struct_tree_root); ("/K", Pdf.Array (map (function StMCID x -> begin match pageobjnum with Some p -> add_parentmap p this_objnum | _ -> () end; Pdf.Integer x | _ -> assert false) children))]) in Pdf.addobj_given_num pdf (this_objnum, this_obj); Pdf.Indirect this_objnum | _ -> assert false ) st in iter (fun (pon, _) -> Pdf.addobj_given_num pdf (pon, Pdf.add_dict_entry (Pdf.lookup_obj pdf pon) "/StructParents" (Pdf.Integer pon))) !parentmap; let parentmap = map (fun (pon, items) -> (string_of_int pon, Pdf.Array (map (fun x -> Pdf.Indirect x) (rev items)))) !parentmap in let st = Pdf.Dictionary [("/Type", Pdf.Name "/StructTreeRoot"); ("/ParentTree", Pdf.Indirect (Pdf.addobj pdf (Pdftree.build_name_tree true pdf parentmap))); ("/K", Pdf.Array items)] in Pdf.addobj_given_num pdf (struct_tree_root, st); Pdf.replace_chain pdf ["/Root"] ("/StructTreeRoot", (Pdf.Indirect struct_tree_root)) let draw ~struct_tree ~fast ~underneath ~filename ~bates ~batespad range pdf drawops = (*Printf.printf "%s\n" (string_of_drawops drawops);*) resstack := [empty_res ()]; Hashtbl.clear !fontpacks; (res ()).time <- Cpdfstrftime.current_time (); let pdf = ref pdf in let range = ref range in (* Double up a trailing NewPage so it actually does something... *) let drawops = match rev drawops with NewPage::t -> rev (NewPage::NewPage::t) | _ -> drawops in let chunks = ref (split_around (eq NewPage) drawops) in dryrun ~struct_tree ~filename ~bates ~batespad !range !pdf !chunks; mcpage := 0; while !chunks <> [] do mcidr := -1; mcpage += 1; structdata =| StDataPage !mcpage; reset_state (); if hd !chunks <> [] then pdf := draw_single ~struct_tree ~fast ~underneath ~filename ~bates ~batespad !range !pdf (hd !chunks); chunks := tl !chunks; if !chunks <> [] then begin (* If the range is just a single page, and there is a next page, move to it. Otherwise, add a blank page at the end of the document. *) let endpage = Pdfpage.endpage !pdf in match !range with | [x] when endpage > x -> range := [x + 1] | _ -> pdf := Cpdfpad.padafter [endpage] !pdf; range := [endpage + 1] end done; if struct_tree then write_structure_tree !pdf (make_structure_tree !pdf (rev !structdata)); !pdf