open Pdfutil open Pdfio open Cpdferror let debug_image_processing = ref false let complain_jbig2enc path = if path = "" then error "Specify jbig2enc location with -jbig2enc" let complain_convert path = if path = "" then error "Specify magick location with -im" let remove x = try (*Printf.printf "%s\n" x;*) Sys.remove x with _ -> () let pnm_white ch = output_char ch ' ' let pnm_newline ch = output_char ch '\n' let pnm_output_string = Stdlib.output_string let pnm_header ch w h = pnm_white ch; pnm_output_string ch (string_of_int w); pnm_white ch; pnm_output_string ch (string_of_int h); pnm_white ch let pnm_to_channel_24 ch w h s = pnm_output_string ch "P6"; pnm_header ch w h; pnm_output_string ch "255"; pnm_newline ch; bytes_to_output_channel ch s let pnm_to_channel_8 ch w h s = pnm_output_string ch "P5"; pnm_header ch w h; pnm_output_string ch "255"; pnm_newline ch; bytes_to_output_channel ch s let pnm_to_channel_1_inverted ch w h s = pnm_output_string ch "P4"; pnm_header ch w h; pnm_newline ch; let inverted = Pdfio.copybytes s in Pdfio.bytes_selfmap lnot inverted; bytes_to_output_channel ch inverted let cmyk_to_channel_32 ch w h s = let inverted = Pdfio.copybytes s in Pdfio.bytes_selfmap (fun x -> 255 - x) inverted; bytes_to_output_channel ch inverted let jbig2_serial = ref 0 let jbig2_globals = null_hash () let write_stream name stream = let fh = open_out_bin name in Pdfio.bytes_to_output_channel fh stream; close_out fh let write_image ~raw ?path_to_p2p ?path_to_im pdf resources name image = match Pdfimage.get_image_24bpp pdf resources image with | Pdfimage.JPEG (stream, _) -> write_stream (name ^ ".jpg") stream | Pdfimage.JPEG2000 (stream, _) -> write_stream (name ^ ".jpx") stream | Pdfimage.JBIG2 (stream, _, global) -> begin match global with | None -> (*Printf.printf "JBIG2: No global, writing plain\n";*) write_stream (name ^ ".jbig2") stream | Some g -> (*Printf.printf "JBIG2: there is a global\n";*) let go () = let serial, _ = Hashtbl.find jbig2_globals g in write_stream (name ^ ".jbig2__" ^ string_of_int serial) stream in try go () with Not_found -> jbig2_serial += 1; let globaldata = let obj = Pdf.lookup_obj pdf g in Pdfcodec.decode_pdfstream_until_unknown pdf obj; match obj with | Pdf.Stream {contents = (_, Got b)} -> Some b | _ -> None in match globaldata with | Some d -> Hashtbl.add jbig2_globals g (!jbig2_serial, d); let filename = Filename.concat (Filename.dirname name) (string_of_int !jbig2_serial ^ ".jbig2global") in write_stream filename d; go () | None -> Pdfe.log "Could not extract JBIG2Globals. Skipping this image." end | Pdfimage.Raw (w, h, Pdfimage.BPP24, stream) -> let pnm = name ^ ".pnm" in let png = name ^ ".png" in let fh = open_out_bin pnm in pnm_to_channel_24 fh w h stream; close_out fh; begin match path_to_p2p with | None -> begin match path_to_im with None -> if not raw then Pdfe.log "Neither pnm2png nor imagemagick found. Specify with -p2p or -im\n" | Some path_to_im -> begin match Sys.command (Filename.quote_command path_to_im [pnm; png]) with 0 -> remove pnm | _ -> Pdfe.log "Call to imagemagick failed: did you specify -p2p or -im correctly?\n"; remove pnm end end | Some path_to_p2p -> begin match Sys.command (Filename.quote_command path_to_p2p ~stdout:png ["-gamma"; "0.45"; "-quiet"; pnm]) with | 0 -> remove pnm | _ -> Pdfe.log "Call to pnmtopng failed: did you specify -p2p correctly?\n"; remove pnm end end | _ -> Pdfe.log (Printf.sprintf "Unsupported image type when extracting image %s " name) let written = ref [] let extract_images_inner ~raw ?path_to_p2p ?path_to_im encoding serial pdf resources stem pnum images = let names = map (fun _ -> Cpdfbookmarks.name_of_spec encoding [] pdf 0 (stem ^ "-p" ^ string_of_int pnum) (let r = !serial in serial := !serial + 1; r) "" 0 0) (indx images) in iter2 (write_image ~raw ?path_to_p2p ?path_to_im pdf resources) names images let extract_images_form_xobject ~raw ?path_to_p2p ?path_to_im encoding dedup dedup_per_page pdf serial stem pnum form = let resources = match Pdf.lookup_direct pdf "/Resources" form with Some (Pdf.Dictionary d) -> Pdf.Dictionary d | _ -> Pdf.Dictionary [] in let images = let xobjects = match Pdf.lookup_direct pdf "/XObject" resources with | Some (Pdf.Dictionary elts) -> map snd elts | _ -> [] in (* Remove any already in !written. Add any remaining to !written, if !args.dedup or !args.dedup_page *) let images = keep (fun o -> Pdf.lookup_direct pdf "/Subtype" o = Some (Pdf.Name "/Image")) xobjects in let already_written, images = List.partition (function Pdf.Indirect n -> mem n !written | _ -> false) images in if dedup || dedup_per_page then written := (option_map (function Pdf.Indirect n -> Some n | _ -> None) images) @ !written; images in extract_images_inner ~raw ?path_to_p2p ?path_to_im encoding serial pdf resources stem pnum images let extract_images ?(raw=false) ?path_to_p2p ?path_to_im encoding dedup dedup_per_page pdf range stem = Hashtbl.clear jbig2_globals; jbig2_serial := 0; if dedup || dedup_per_page then written := []; let pdf_pages = Pdfpage.pages_of_pagetree pdf in let pages = option_map (function (i, pdf_pages) -> if mem i range then Some pdf_pages else None) (combine (indx pdf_pages) pdf_pages) in let serial = ref 0 in iter2 (fun page pnum -> if dedup_per_page then written := []; let xobjects = match Pdf.lookup_direct pdf "/XObject" page.Pdfpage.resources with | Some (Pdf.Dictionary elts) -> map snd elts | _ -> [] in let images = keep (fun o -> Pdf.lookup_direct pdf "/Subtype" o = Some (Pdf.Name "/Image")) xobjects in let already_written, images = List.partition (function Pdf.Indirect n -> mem n !written | _ -> false) images in if dedup || dedup_per_page then written := (option_map (function Pdf.Indirect n -> Some n | _ -> None) images) @ !written; let forms = keep (fun o -> Pdf.lookup_direct pdf "/Subtype" o = Some (Pdf.Name "/Form")) xobjects in extract_images_inner ~raw ?path_to_p2p ?path_to_im encoding serial pdf page.Pdfpage.resources stem pnum images; iter (extract_images_form_xobject ~raw ?path_to_p2p ?path_to_im encoding dedup dedup_per_page pdf serial stem pnum) forms) pages (indx pages) (* Image resolution *) type xobj = | Image of int * int (* width, height *) | Form of Pdftransform.transform_matrix * Pdf.pdfobject * Pdf.pdfobject (* Will add actual data later. *) let image_results = ref [] let rec image_resolution_page pdf page pagenum dpi images = try let pageops = Pdfops.parse_operators pdf page.Pdfpage.resources page.Pdfpage.content and transform = ref [ref Pdftransform.i_matrix] in iter (function | Pdfops.Op_cm matrix -> begin match !transform with | [] -> raise (Failure "no transform") | _ -> (hd !transform) := Pdftransform.matrix_compose !(hd !transform) matrix end | Pdfops.Op_Do xobject -> let trans (x, y) = match !transform with | [] -> raise (Failure "no transform") | _ -> Pdftransform.transform_matrix !(hd !transform) (x, y) in let o = trans (0., 0.) and x = trans (1., 0.) and y = trans (0., 1.) in (*i Printf.printf "o = %f, %f, x = %f, %f, y = %f, %f\n" (fst o) (snd o) (fst x) (snd x) (fst y) (snd y); i*) let rec lookup_image k = function | [] -> assert false | (_, a, _, _) as h::_ when a = k -> h | _::t -> lookup_image k t in begin match lookup_image xobject images with | (pagenum, name, Form (xobj_matrix, content, resources), objnum) -> let content = (* Add in matrix etc. *) let total_matrix = Pdftransform.matrix_compose xobj_matrix !(hd !transform) in let ops = Pdfops.Op_cm total_matrix:: Pdfops.parse_operators pdf resources [content] in Pdfops.stream_of_ops ops in let page = {Pdfpage.content = [content]; Pdfpage.mediabox = Pdfpage.rectangle_of_paper Pdfpaper.a4; Pdfpage.resources = resources; Pdfpage.rotate = Pdfpage.Rotate0; Pdfpage.rest = Pdf.Dictionary []} in let newpdf = Pdfpage.change_pages false pdf [page] in image_resolution newpdf [pagenum] dpi | (pagenum, name, Image (w, h), objnum) -> let lx = Pdfunits.inches (distance_between o x) Pdfunits.PdfPoint in let ly = Pdfunits.inches (distance_between o y) Pdfunits.PdfPoint in let wdpi = float w /. lx and hdpi = float h /. ly in image_results := (pagenum, xobject, w, h, wdpi, hdpi, objnum)::!image_results (*Printf.printf "%i, %s, %i, %i, %f, %f\n" pagenum xobject w h wdpi hdpi*) (*i else Printf.printf "S %i, %s, %i, %i, %f, %f\n" pagenum xobject (int_of_float w) (int_of_float h) wdpi hdpi i*) end | Pdfops.Op_q -> begin match !transform with | [] -> raise (Failure "Unbalanced q/Q ops") | h::t -> let h' = ref Pdftransform.i_matrix in h' := !h; transform := h'::h::t end | Pdfops.Op_Q -> begin match !transform with | [] -> raise (Failure "Unbalanced q/Q ops") | _ -> transform := tl !transform end | _ -> ()) pageops with e -> Printf.printf "Error %s\n" (Printexc.to_string e); flprint "\n" and image_resolution pdf range dpi = let images = ref [] in Cpdfpage.iter_pages (fun pagenum page -> (* 1. Get all image names and their native resolutions from resources as string * int * int *) match Pdf.lookup_direct pdf "/XObject" page.Pdfpage.resources with | Some (Pdf.Dictionary xobjects) -> iter (function (name, xobject) -> let objnum = match xobject with Pdf.Indirect i -> i | _ -> 0 in match Pdf.lookup_direct pdf "/Subtype" xobject with | Some (Pdf.Name "/Image") -> let width = match Pdf.lookup_direct pdf "/Width" xobject with | Some x -> Pdf.getnum pdf x | None -> 1. and height = match Pdf.lookup_direct pdf "/Height" xobject with | Some x -> Pdf.getnum pdf x | None -> 1. in images := (pagenum, name, Image (int_of_float width, int_of_float height), objnum)::!images | Some (Pdf.Name "/Form") -> let resources = match Pdf.lookup_direct pdf "/Resources" xobject with | None -> page.Pdfpage.resources (* Inherit from page or form above. *) | Some r -> r and contents = xobject and matrix = match Pdf.lookup_direct pdf "/Matrix" xobject with | Some (Pdf.Array [a; b; c; d; e; f]) -> {Pdftransform.a = Pdf.getnum pdf a; Pdftransform.b = Pdf.getnum pdf b; Pdftransform.c = Pdf.getnum pdf c; Pdftransform.d = Pdf.getnum pdf d; Pdftransform.e = Pdf.getnum pdf e; Pdftransform.f = Pdf.getnum pdf f} | _ -> Pdftransform.i_matrix in images := (pagenum, name, Form (matrix, contents, resources), objnum)::!images | _ -> () ) xobjects | _ -> ()) pdf range; (* Now, split into differing pages, and call [image_resolution_page] on each one *) let pagesplits = map (function (a, _, _, _)::_ as ls -> (a, ls) | _ -> assert false) (collate (fun (a, _, _, _) (b, _, _, _) -> compare a b) (rev !images)) and pages = Pdfpage.pages_of_pagetree pdf in iter (function (pagenum, images) -> let page = select pagenum pages in image_resolution_page pdf page pagenum dpi images) pagesplits let image_resolution pdf range dpi = image_results := []; image_resolution pdf range dpi; rev !image_results let image_resolution_json pdf range dpi = let images = image_resolution pdf range dpi in Pdfio.bytes_of_string (Cpdfyojson.Safe.pretty_to_string (`List (map (fun (pagenum, xobject, w, h, wdpi, hdpi, objnum) -> `Assoc [("Object", `Int objnum); ("Page", `Int pagenum); ("XObject", `String xobject); ("W", `Int w); ("H", `Int h); ("Xdpi", `Float wdpi); ("Ydpi", `Float hdpi)]) images))) (* All the images in file referenced at least once from the given range of pages. *) let images pdf range = let images = null_hash () in let formnums = null_hash () in let rec process_xobject resources pagenum page (name, xobject) = match Pdf.lookup_direct pdf "/Subtype" xobject with | Some (Pdf.Name "/Image") -> begin match xobject with | Pdf.Indirect i -> begin match Hashtbl.find images i with | (pagenums, n, w, h, s, bpc, cs, f) -> Hashtbl.replace images i (pagenum::pagenums, n, w, h, s, bpc, cs, f) | exception Not_found -> let width = match Pdf.lookup_direct pdf "/Width" xobject with | Some x -> Pdf.getnum pdf x | None -> 1. and height = match Pdf.lookup_direct pdf "/Height" xobject with | Some x -> Pdf.getnum pdf x | None -> 1. and size = match Pdf.lookup_direct pdf "/Length" xobject with | Some (Pdf.Integer x) -> x | _ -> 0 and bpc = match Pdf.lookup_direct pdf "/BitsPerComponent" xobject with | Some (Pdf.Integer x) -> x | _ -> 0 and colourspace = match Pdf.lookup_direct pdf "/ColorSpace" xobject with | Some x -> Some (Pdfspace.string_of_colourspace (Pdfspace.read_colourspace pdf resources x)) | None -> None and filter = match Pdf.lookup_direct pdf "/Filter" xobject with | Some (Pdf.Array [x]) | Some x -> Some (Pdfwrite.string_of_pdf x) | None -> None in Hashtbl.replace images i ([pagenum], name, int_of_float width, int_of_float height, size, bpc, colourspace, filter) end | _ -> () end | Some (Pdf.Name "/Form") -> begin match xobject with | Pdf.Indirect i -> begin match Hashtbl.find formnums i with | () -> () | exception Not_found -> Hashtbl.add formnums i (); begin match Pdf.lookup_direct pdf "/Resources" xobject with | Some r -> begin match Pdf.lookup_direct pdf "/XObject" r with | Some (Pdf.Dictionary xobjects) -> iter (process_xobject r pagenum page) xobjects | _ -> () end | None -> () end end | _ -> () end | _ -> () in Cpdfpage.iter_pages (fun pagenum page -> match Pdf.lookup_direct pdf "/XObject" page.Pdfpage.resources with | Some (Pdf.Dictionary xobjects) -> iter (process_xobject page.Pdfpage.resources pagenum page) xobjects | _ -> ()) pdf range; let images = list_of_hashtbl images in let images = map (fun (i, (pnums, n, w, h, s, bpc, c, filter)) -> (i, (setify (sort compare pnums), n, w, h, s, bpc, c, filter))) images in let images = sort (fun (_, (pnums, _, _, _, _, _, _, _)) (_, (pnums', _, _, _, _, _, _, _)) -> compare (hd pnums) (hd pnums')) images in `List (map (fun (i, (pnums, n, w, h, size, bpc, cs, filter)) -> `Assoc [("Object", `Int i); ("Pages", `List (map (fun x -> `Int x) pnums)); ("Name", `String n); ("Width", `Int w); ("Height", `Int h); ("Bytes", `Int size); ("BitsPerComponent", `Int bpc); ("Colourspace", match cs with None -> `Null | Some s -> `String s); ("Filter", match filter with None -> `Null | Some s -> `String s)]) images) let obj_of_jpeg_data data = let w, h = Cpdfjpeg.jpeg_dimensions data in let d = ["/Length", Pdf.Integer (Pdfio.bytes_size data); "/Filter", Pdf.Name "/DCTDecode"; "/BitsPerComponent", Pdf.Integer 8; "/ColorSpace", Pdf.Name "/DeviceRGB"; "/Subtype", Pdf.Name "/Image"; "/Width", Pdf.Integer w; "/Height", Pdf.Integer h] in Pdf.Stream {contents = (Pdf.Dictionary d, Pdf.Got data)}, [] let obj_of_png_data data = let png = Cpdfpng.read_png (Pdfio.input_of_bytes data) in let d = ["/Length", Pdf.Integer (Pdfio.bytes_size png.idat); "/Filter", Pdf.Name "/FlateDecode"; "/Subtype", Pdf.Name "/Image"; "/BitsPerComponent", Pdf.Integer png.bitdepth; "/ColorSpace", Pdf.Name (match png.colortype with 0 -> "/DeviceGray" | 2 -> "/DeviceRGB" | _ -> error "obj_of_png_data 1"); "/DecodeParms", Pdf.Dictionary ["/BitsPerComponent", Pdf.Integer png.bitdepth; "/Colors", Pdf.Integer (match png.colortype with 0 -> 1 | 2 -> 3 | _ -> error "obj_of_png_data 2"); "/Columns", Pdf.Integer png.width; "/Predictor", Pdf.Integer 15]; "/Width", Pdf.Integer png.width; "/Height", Pdf.Integer png.height] in Pdf.Stream {contents = (Pdf.Dictionary d, Pdf.Got png.idat)}, [] let obj_of_jpeg2000_data data = let w, h = Cpdfjpeg2000.jpeg2000_dimensions data in let d = ["/Length", Pdf.Integer (Pdfio.bytes_size data); "/Filter", Pdf.Name "/JPXDecode"; "/Subtype", Pdf.Name "/Image"; "/Width", Pdf.Integer w; "/Height", Pdf.Integer h] in Pdf.Stream {contents = (Pdf.Dictionary d, Pdf.Got data)}, [] let jbig2_dimensions data = (bget data 11 * 256 * 256 * 256 + bget data 12 * 256 * 256 + bget data 13 * 256 + bget data 14, bget data 15 * 256 * 256 * 256 + bget data 16 * 256 * 256 + bget data 17 * 256 + bget data 18) let obj_of_jbig2_data ?global data = let d, extra = let decodeparms, extra = match global with | Some data -> [("/DecodeParms", Pdf.Dictionary [("/JBIG2Globals", Pdf.Indirect 10000)])], [(10000, Pdf.Stream {contents = (Pdf.Dictionary [("/Length", Pdf.Integer (bytes_size data))], Pdf.Got data)})] | None -> [], [] in let w, h = jbig2_dimensions data in [("/Length", Pdf.Integer (Pdfio.bytes_size data)); ("/Filter", Pdf.Name "/JBIG2Decode"); ("/Subtype", Pdf.Name "/Image"); ("/BitsPerComponent", Pdf.Integer 1); ("/ColorSpace", Pdf.Name "/DeviceGray"); ("/Width", Pdf.Integer w); ("/Height", Pdf.Integer h)] @ decodeparms, extra in Pdf.Stream {contents = (Pdf.Dictionary d, Pdf.Got data)}, extra let image_of_input fobj i = let pdf = Pdf.empty () in let data = Pdfio.bytes_of_input i 0 i.Pdfio.in_channel_length in let obj, extras = fobj () data in iter (Pdf.addobj_given_num pdf) extras; let w = match Pdf.lookup_direct pdf "/Width" obj with Some x -> Pdf.getnum pdf x | _ -> assert false in let h = match Pdf.lookup_direct pdf "/Height" obj with Some x -> Pdf.getnum pdf x | _ -> assert false in let page = {Pdfpage.content = [Pdfops.stream_of_ops [Pdfops.Op_cm (Pdftransform.matrix_of_transform [Pdftransform.Translate (0., 0.); Pdftransform.Scale ((0., 0.), w, h)]); Pdfops.Op_Do "/I0"]]; Pdfpage.mediabox = Pdf.Array [Pdf.Real 0.; Pdf.Real 0.; Pdf.Real w; Pdf.Real h]; Pdfpage.resources = Pdf.Dictionary ["/XObject", Pdf.Dictionary ["/I0", Pdf.Indirect (Pdf.addobj pdf obj)]]; Pdfpage.rotate = Pdfpage.Rotate0; Pdfpage.rest = Pdf.Dictionary []} in let pdf, pageroot = Pdfpage.add_pagetree [page] pdf in Pdfpage.add_root pageroot [] pdf let jpeg_to_jpeg pdf ~pixel_threshold ~length_threshold ~percentage_threshold ~q ~path_to_convert s dict reference = if q < 0. || q > 100. then error "Out of range quality"; complain_convert path_to_convert; let w = match Pdf.lookup_direct pdf "/Width" dict with Some (Pdf.Integer i) -> i | _ -> error "bad width" in let h = match Pdf.lookup_direct pdf "/Height" dict with Some (Pdf.Integer i) -> i | _ -> error "bad height" in if w * h < pixel_threshold then (if !debug_image_processing then Printf.printf "pixel threshold not met\n%!") else Pdf.getstream s; let size = match Pdf.lookup_direct pdf "/Length" dict with Some (Pdf.Integer i) -> i | _ -> 0 in if size < length_threshold then (if !debug_image_processing then Printf.printf "length threshold not met\n%!") else let out = Filename.temp_file "cpdf" "convertin.jpg" in let out2 = Filename.temp_file "cpdf" "convertout.jpg" in let fh = open_out_bin out in begin match s with Pdf.Stream {contents = _, Pdf.Got d} -> Pdfio.bytes_to_output_channel fh d | _ -> () end; close_out fh; let retcode = let command = (Filename.quote_command path_to_convert [out; "-quality"; string_of_float q ^ "%"; out2]) in (*Printf.printf "%S\n" command;*) Sys.command command in if retcode = 0 then begin try let result = open_in_bin out2 in let newsize = in_channel_length result in let perc_ok = float newsize /. float size < percentage_threshold /. 100. in if newsize < size && perc_ok then begin if !debug_image_processing then Printf.printf "JPEG to JPEG %i -> %i (%i%%)\n%!" size newsize (int_of_float (float newsize /. float size *. 100.)); reference := Pdf.add_dict_entry dict "/Length" (Pdf.Integer newsize), Pdf.Got (Pdfio.bytes_of_input_channel result) end else begin if !debug_image_processing then Printf.printf "no size reduction\n%!" end; close_in result with _ -> remove out; remove out2 end else begin Printf.printf "external process failed\n%!" end; remove out; remove out2 let suitable_num pdf dict = match Pdf.lookup_direct pdf "/ColorSpace" dict with | Some (Pdf.Name ("/DeviceRGB" | "/CalRGB")) -> 3 | Some (Pdf.Name ("/DeviceGray" | "/CalGray")) -> 1 | Some (Pdf.Name "/DeviceCMYK") -> 4 | Some (Pdf.Array [Pdf.Name "/Lab"; _]) -> 3 | Some (Pdf.Array [Pdf.Name "/ICCBased"; stream]) -> begin match Pdf.lookup_direct pdf "/N" stream with | Some (Pdf.Integer 3) -> 3 | Some (Pdf.Integer 1) -> 1 | Some (Pdf.Integer 4) -> 4 | _ -> 0 end | Some (Pdf.Array (Pdf.Name ("/Separation")::_)) -> ~-1 | Some (Pdf.Array (Pdf.Name ("/Indexed")::_)) -> ~-2 | _ -> 0 let lossless_out pdf ~pixel_threshold ~length_threshold extension s dict reference = let old = !reference in let restore () = reference := old in let bpc = Pdf.lookup_direct pdf "/BitsPerComponent" dict in let components = suitable_num pdf dict in match components, bpc with | (1 | 3 | 4 | -1 | -2), Some (Pdf.Integer 8) -> let w = match Pdf.lookup_direct pdf "/Width" dict with Some (Pdf.Integer i) -> i | _ -> error "bad width" in let h = match Pdf.lookup_direct pdf "/Height" dict with Some (Pdf.Integer i) -> i | _ -> error "bad height" in if w * h < pixel_threshold then (if !debug_image_processing then Printf.printf "pixel threshold not met\n%!"; None) else let size = match Pdf.lookup_direct pdf "/Length" dict with Some (Pdf.Integer i) -> i | _ -> 0 in if size < length_threshold then (if !debug_image_processing then Printf.printf "length threshold not met\n%!"; None) else begin Pdfcodec.decode_pdfstream_until_unknown pdf s; match Pdf.lookup_direct pdf "/Filter" (fst !reference) with Some _ -> restore (); None | None -> let out = Filename.temp_file "cpdf" ("convertin" ^ (if suitable_num pdf dict < 4 then ".pnm" else ".cmyk")) in let out2 = Filename.temp_file "cpdf" ("convertout" ^ extension) in let fh = open_out_bin out in let data = match s with Pdf.Stream {contents = _, Pdf.Got d} -> d | _ -> assert false in (if components = 3 then pnm_to_channel_24 else if components = 4 then cmyk_to_channel_32 else pnm_to_channel_8) fh w h data; close_out fh; Some (out, out2, size, components, w, h) end | colspace, bpc -> (*let colspace = Pdf.lookup_direct pdf "/ColorSpace" dict in let colspace, bpc, filter = (match colspace with None -> "none" | Some x -> Pdfwrite.string_of_pdf x), (match bpc with None -> "none" | Some x -> Pdfwrite.string_of_pdf x), (match Pdf.lookup_direct pdf "/Filter" dict with None -> "none" | Some x -> Pdfwrite.string_of_pdf x) in print_string (Pdfwrite.string_of_pdf dict); print_string (Printf.sprintf "%s (%s) [%s]\n" colspace bpc filter);*) if !debug_image_processing then Printf.printf "colourspace not suitable\n%!"; restore (); None (* an image we cannot or do not handle *) let lossless_to_jpeg pdf ~pixel_threshold ~length_threshold ~percentage_threshold ~qlossless ~path_to_convert s dict reference = complain_convert path_to_convert; match lossless_out pdf ~pixel_threshold ~length_threshold ".jpg" s dict reference with | None -> () | Some (_, _, _, -2, _, _) -> if !debug_image_processing then Printf.printf "skipping indexed colorspace\n%!" | Some (out, out2, size, components, w, h) -> let retcode = let command = (Filename.quote_command path_to_convert ((if components = 4 then ["-depth"; "8"; "-size"; string_of_int w ^ "x" ^ string_of_int h] else []) @ [out; "-quality"; string_of_float qlossless ^ "%"] @ (if components = 1 then ["-colorspace"; "Gray"] else if components = 4 then ["-colorspace"; "CMYK"] else []) @ [out2])) in (*Printf.printf "%S\n" command;*) Sys.command command in if retcode = 0 then begin try let result = open_in_bin out2 in let newsize = in_channel_length result in let perc_ok = float newsize /. float size < percentage_threshold /. 100. in if newsize < size && perc_ok then begin if !debug_image_processing then Printf.printf "lossless to JPEG %i -> %i (%i%%)\n%!" size newsize (int_of_float (float newsize /. float size *. 100.)); reference := (Pdf.add_dict_entry (Pdf.add_dict_entry dict "/Length" (Pdf.Integer newsize)) "/Filter" (Pdf.Name "/DCTDecode")), Pdf.Got (Pdfio.bytes_of_input_channel result) end else begin if !debug_image_processing then Printf.printf "no size reduction\n%!" end; close_in result with _ -> remove out; remove out2 end; remove out; remove out2 let test_components pdf dict = match suitable_num pdf dict with -1 | -2 -> 1 | x -> x let test_bpc pdf dict = match Pdf.lookup_direct pdf "/BitsPerComponent" dict with | Some (Pdf.Integer i) -> i | _ -> 0 let lossless_resample pdf ~pixel_threshold ~length_threshold ~factor ~interpolate ~path_to_convert s dict reference = complain_convert path_to_convert; let in_components = test_components pdf dict in let in_bpc = test_bpc pdf dict in (*Printf.printf "***lossless_resample IN dictionary: %S\n" (Pdfwrite.string_of_pdf dict); *) (*Printf.printf "\n***IN components = %i, bpc = %i\n" in_components in_bpc;*) match lossless_out pdf ~pixel_threshold ~length_threshold ".png" s dict reference with | None -> () | Some (_, _, _, 4, _, _) -> Printf.printf "lossless resampling for CMYK not supported yet\n%!" | Some (out, out2, size, components, w, h) -> let retcode = let command = Filename.quote_command path_to_convert ([out] @ (if components = 4 then ["-depth"; "8"; "-size"; string_of_int w ^ "x" ^ string_of_int h] else []) @ (if components = 1 then ["-define"; "png:color-type=0"; "-colorspace"; "Gray"] else if components = 3 then ["-define"; "-png:color-type=2"; "-colorspace"; "RGB"] else if components = 4 then ["-colorspace"; "CMYK"] else []) @ [if interpolate && components > -2 then "-resize" else "-sample"; string_of_float factor ^ "%"; out2]) in (*Printf.printf "%S\n" command;*) Sys.command command in try if retcode = 0 then begin let result = open_in_bin out2 in let newsize = in_channel_length result in if newsize < size then begin reference := (match fst (obj_of_png_data (Pdfio.bytes_of_input_channel result)) with | Pdf.Stream {contents = Pdf.Dictionary d, data} as s -> let out_components = test_components pdf s in let out_bpc = test_bpc pdf s in (*Printf.printf "***OUT components = %i, bpc = %i\n" out_components out_bpc;*) let rgb_to_grey_special = let was_rgb = match Pdf.lookup_direct pdf "/ColorSpace" dict with | Some (Pdf.Name ("/DeviceRGB" | "/CalRGB")) -> true | _ -> false in in_bpc = out_bpc && in_components = 3 && out_components = 1 && was_rgb in (*Printf.printf "***rgb_to_grey_special = %b\n" rgb_to_grey_special;*) if (out_components <> in_components || in_bpc <> out_bpc) && not rgb_to_grey_special then begin if !debug_image_processing then Printf.printf "wrong bpc / components returned. Skipping.\n%!"; !reference end else begin if !debug_image_processing then Printf.printf "lossless resample %i -> %i (%i%%)\n%!" size newsize (int_of_float (float newsize /. float size *. 100.)); let d' = fold_right (fun (k, v) d -> if k <> "/ColorSpace" || rgb_to_grey_special then add k v d else d) d (match dict with Pdf.Dictionary x -> x | _ -> []) in (*Printf.printf "***lossless_resample OUT dictionary: %S\n" (Pdfwrite.string_of_pdf (Pdf.Dictionary d')); *) (Pdf.Dictionary d', data) end | _ -> assert false) end else begin if !debug_image_processing then Printf.printf "no size reduction\n%!" end; close_in result end; remove out; remove out2 with _ -> remove out; remove out2 let lossless_resample_target_dpi objnum pdf ~pixel_threshold ~length_threshold ~factor ~target_dpi_info ~interpolate ~path_to_convert s dict reference = let real_factor = factor /. Hashtbl.find target_dpi_info objnum *. 100. in if real_factor < 100. then lossless_resample pdf ~pixel_threshold ~length_threshold ~factor:real_factor ~interpolate ~path_to_convert s dict reference else if !debug_image_processing then Printf.printf "failed to meet dpi target\n%!" let recompress_1bpp_jbig2_lossless ~pixel_threshold ~length_threshold ~path_to_jbig2enc pdf s dict reference = complain_jbig2enc path_to_jbig2enc; let old = !reference in let restore () = reference := old in let w = match Pdf.lookup_direct pdf "/Width" dict with Some (Pdf.Integer i) -> i | _ -> error "bad width" in let h = match Pdf.lookup_direct pdf "/Height" dict with Some (Pdf.Integer i) -> i | _ -> error "bad height" in if w * h < pixel_threshold then (if !debug_image_processing then Printf.printf "pixel threshold not met\n%!") else (* (but also, jbig2enc fails on tiny images) *) let size = match Pdf.lookup_direct pdf "/Length" dict with Some (Pdf.Integer i) -> i | _ -> 0 in if size < length_threshold then (if !debug_image_processing then Printf.printf "length threshold not met\n%!") else begin Pdfcodec.decode_pdfstream_until_unknown pdf s; match Pdf.lookup_direct pdf "/Filter" (fst !reference) with | Some x -> if !debug_image_processing then Printf.printf "could not decode - skipping %s length %i\n%!" (Pdfwrite.string_of_pdf x) size; restore () | None -> let out = Filename.temp_file "cpdf" "convertin.pnm" in let out2 = Filename.temp_file "cpdf" "convertout.jbig2" in let fh = open_out_bin out in let data = match s with Pdf.Stream {contents = _, Pdf.Got d} -> d | _ -> assert false in pnm_to_channel_1_inverted fh w h data; close_out fh; let retcode = let command = Filename.quote_command ~stdout:out2 path_to_jbig2enc ["-d"; "-p"; out] in (*Printf.printf "%S\n" command;*) Sys.command command in if retcode <> 0 then restore () else begin let result = open_in_bin out2 in let newsize = in_channel_length result in if newsize < size then begin if !debug_image_processing then Printf.printf "1bpp to JBIG2 %i -> %i (%i%%)\n%!" size newsize (int_of_float (float newsize /. float size *. 100.)); reference := (Pdf.remove_dict_entry (Pdf.add_dict_entry (Pdf.add_dict_entry dict "/Length" (Pdf.Integer newsize)) "/Filter" (Pdf.Name "/JBIG2Decode")) "/DecodeParms"), Pdf.Got (Pdfio.bytes_of_input_channel result) end else begin if !debug_image_processing then Printf.printf "no size reduction\n%!" end; close_in result end; remove out; remove out2 end (* Recompress 1bpp images (except existing JBIG2 compressed ones) to lossy jbig2 *) let preprocess_jbig2_lossy ~path_to_jbig2enc ~jbig2_lossy_threshold ~length_threshold ~pixel_threshold ~dpi_threshold inrange highdpi pdf = complain_jbig2enc path_to_jbig2enc; let objnum_name_pairs = ref [] in let process_obj objnum s = match s with | Pdf.Stream ({contents = dict, _} as reference) -> let old = !reference in let restore () = reference := old in if Hashtbl.mem inrange objnum && (dpi_threshold = 0. || Hashtbl.mem highdpi objnum) then begin match Pdf.lookup_direct pdf "/Subtype" dict, Pdf.lookup_direct pdf "/BitsPerComponent" dict, Pdf.lookup_direct pdf "/ImageMask" dict with | Some (Pdf.Name "/Image"), Some (Pdf.Integer 1), _ | Some (Pdf.Name "/Image"), _, Some (Pdf.Boolean true) -> let w = match Pdf.lookup_direct pdf "/Width" dict with Some (Pdf.Integer i) -> i | _ -> error "bad width" in let h = match Pdf.lookup_direct pdf "/Height" dict with Some (Pdf.Integer i) -> i | _ -> error "bad height" in if w * h < pixel_threshold then (if !debug_image_processing then Printf.printf "pixel threshold not met\n%!") else (* (but also, jbig2enc fails on tiny images) *) let size = match Pdf.lookup_direct pdf "/Length" dict with Some (Pdf.Integer i) -> i | _ -> 0 in if size < length_threshold then (if !debug_image_processing then Printf.printf "length threshold not met\n%!") else begin Pdfcodec.decode_pdfstream_until_unknown pdf s; match Pdf.lookup_direct pdf "/Filter" (fst !reference) with | Some x -> if !debug_image_processing then Printf.printf "could not decode - skipping %s length %i\n%!" (Pdfwrite.string_of_pdf x) size; restore () | None -> let out = Filename.temp_file "cpdf" "convertin.pnm" in let fh = open_out_bin out in let data = match s with Pdf.Stream {contents = _, Pdf.Got d} -> d | _ -> assert false in pnm_to_channel_1_inverted fh w h data; close_out fh; if !debug_image_processing then Printf.printf "JBIG2Lossy: obj %i is suitable\n%!" objnum; objnum_name_pairs := (objnum, out)::!objnum_name_pairs end | _ -> () (* not a 1bpp image *) end | _ -> () (* not a stream *) in Pdf.objiter process_obj pdf; if length !objnum_name_pairs > 10000 then Pdfe.log "Too many jbig2 streams" else if length !objnum_name_pairs = 0 then () else let jbig2out = Filename.temp_file "cpdf" "jbig2" in let retcode = let command = Filename.quote_command path_to_jbig2enc ?stderr:(if !debug_image_processing then None else Some Filename.null) (["-p"; "-s"; "-d"; "-t"; string_of_float jbig2_lossy_threshold; "-b"; jbig2out] @ map snd !objnum_name_pairs) in (*Printf.printf "%S\n" command;*) Sys.command command in iter remove (map snd !objnum_name_pairs); if retcode = 0 then begin let globals = bytes_of_string (contents_of_file (jbig2out ^ ".sym")) in let globalobj = Pdf.addobj pdf (Pdf.Stream {contents = Pdf.Dictionary [("/Length", Pdf.Integer (bytes_size globals))], Pdf.Got globals}) in iter2 (fun (objnum, _) i -> let data = bytes_of_string (contents_of_file (jbig2out ^ Printf.sprintf ".%04i" i)) in let basic_obj = Pdf.Stream {contents = Pdf.Dictionary [("/Length", Pdf.Integer (bytes_size data)); ("/Filter", Pdf.Name "/JBIG2Decode"); ("/DecodeParms", Pdf.Dictionary [("/JBIG2Globals", Pdf.Indirect globalobj)])], Pdf.Got data} in let dict = match Pdf.lookup_obj pdf objnum with Pdf.Stream {contents = d, _} -> d | _ -> Pdf.Dictionary [] in Pdf.addobj_given_num pdf (objnum, (match basic_obj with | Pdf.Stream {contents = Pdf.Dictionary d, data} -> let d' = fold_right (fun (k, v) d -> add k v d) d (match dict with Pdf.Dictionary x -> x | _ -> []) in Pdf.Stream {contents = Pdf.Dictionary d', data} | _ -> assert false))) !objnum_name_pairs (indx0 !objnum_name_pairs) end else begin Pdfe.log "Call to jbig2enc failed" end; iter (fun i -> remove (jbig2out ^ Printf.sprintf ".%04i" i)) (indx0 !objnum_name_pairs); remove (jbig2out ^ ".sym") let process ~q ~qlossless ~onebppmethod ~jbig2_lossy_threshold ~length_threshold ~percentage_threshold ~pixel_threshold ~dpi_threshold ~factor ~interpolate ~path_to_jbig2enc ~path_to_convert range pdf = let inrange = match images pdf range with | `List l -> hashset_of_list (map (function `Assoc (("Object", `Int i)::_) -> i | _ -> assert false) l) | _ -> assert false in let highdpi, target_dpi_info = let objnums, dpi = if dpi_threshold = 0. && factor > 0. then ([], []) else let results = image_resolution pdf range max_float in (*iter (fun (_, _, _, _, wdpi, hdpi, objnum) -> Printf.printf "From image_resolution %f %f %i\n" wdpi hdpi objnum) results;*) let cmp (_, _, _, _, _, _, a) (_, _, _, _, _, _, b) = compare a b in let sets = collate cmp (sort cmp results) in let heads = map hd (map (sort (fun (_, _, _, _, a, b, _) (_, _, _, _, c, d, _) -> compare (fmin a b) (fmin c d))) sets) in (*iter (fun (_, _, _, _, wdpi, hdpi, objnum) -> Printf.printf "Lowest resolution exemplar %f %f %i\n" wdpi hdpi objnum) heads;*) let needed = keep (fun (_, _, _, _, wdpi, hdpi, objnum) -> fmin wdpi hdpi > dpi_threshold) heads in (*iter (fun (_, _, _, _, wdpi, hdpi, objnum) -> Printf.printf "keep %f %f %i\n" wdpi hdpi objnum) needed;*) map (fun (_, _, _, _, _, _, objnum) -> objnum) needed, map (fun (_, _, _, _, wdpi, hdpi, objnum) -> (objnum, fmin wdpi hdpi)) heads (*iter (fun (x, d) -> Printf.printf "obj %i at %f dpi\n" x d) r; r*) in hashset_of_list objnums, hashtable_of_dictionary dpi in begin match onebppmethod with "JBIG2Lossy" -> preprocess_jbig2_lossy ~path_to_jbig2enc ~jbig2_lossy_threshold ~dpi_threshold ~length_threshold ~pixel_threshold inrange highdpi pdf | _ -> () end; let nobjects = Pdf.objcard pdf in let ndone = ref 0 in let process_obj objnum s = match s with | Pdf.Stream ({contents = dict, _} as reference) -> ndone += 1; if Hashtbl.mem inrange objnum && (dpi_threshold = 0. || Hashtbl.mem highdpi objnum) then begin match Pdf.lookup_direct pdf "/Subtype" dict, Pdf.lookup_direct pdf "/Filter" dict, Pdf.lookup_direct pdf "/BitsPerComponent" dict, Pdf.lookup_direct pdf "/ImageMask" dict with | Some (Pdf.Name "/Image"), Some (Pdf.Name "/DCTDecode" | Pdf.Array [Pdf.Name "/DCTDecode"]), _, _ -> if q < 100. then begin if !debug_image_processing then Printf.printf "(%i/%i) Object %i (JPEG)... %!" !ndone nobjects objnum; jpeg_to_jpeg pdf ~pixel_threshold ~length_threshold ~percentage_threshold ~q ~path_to_convert s dict reference end | Some (Pdf.Name "/Image"), _, Some (Pdf.Integer 1), _ | Some (Pdf.Name "/Image"), _, _, Some (Pdf.Boolean true) -> begin match onebppmethod with | "JBIG2" -> begin if !debug_image_processing then Printf.printf "(%i/%i) object %i (1bpp)... %!" !ndone nobjects objnum; recompress_1bpp_jbig2_lossless ~pixel_threshold ~length_threshold ~path_to_jbig2enc pdf s dict reference end | _ -> () end | Some (Pdf.Name "/Image"), _, _, _ -> if qlossless < 101. then begin if !debug_image_processing then Printf.printf "(%i/%i) object %i (lossless)... %!" !ndone nobjects objnum; lossless_to_jpeg pdf ~pixel_threshold ~length_threshold ~percentage_threshold ~qlossless ~path_to_convert s dict reference end else begin if factor < 101. then begin if !debug_image_processing then Printf.printf "(%i/%i) object %i (lossless)... %!" !ndone nobjects objnum; if factor < 0. then lossless_resample_target_dpi objnum pdf ~pixel_threshold ~length_threshold ~factor:~-.factor ~target_dpi_info ~interpolate ~path_to_convert s dict reference else lossless_resample pdf ~pixel_threshold ~length_threshold ~factor ~interpolate ~path_to_convert s dict reference end end | _ -> () (* not an image *) end | _ -> ndone += 1 (* not a stream *) in Pdf.objiter process_obj pdf