Remove pdfgraphics to old/

This commit is contained in:
John Whitington 2023-06-13 14:07:34 +01:00
parent 117a40c3d6
commit 0cc062b302
9 changed files with 83 additions and 37 deletions

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@ -7,7 +7,7 @@ DOC = cpdfunicodedata cpdferror cpdfdebug cpdfjson cpdfstrftime cpdfcoord \
cpdfembed cpdfaddtext cpdffont cpdftype cpdfpad cpdfocg \ cpdfembed cpdfaddtext cpdffont cpdftype cpdfpad cpdfocg \
cpdfsqueeze cpdfdraft cpdfspot cpdfpagelabels cpdfcreate cpdfannot \ cpdfsqueeze cpdfdraft cpdfspot cpdfpagelabels cpdfcreate cpdfannot \
cpdfxobject cpdfimpose cpdftweak cpdftexttopdf cpdftoc cpdfjpeg \ cpdfxobject cpdfimpose cpdftweak cpdftexttopdf cpdftoc cpdfjpeg \
cpdfpng cpdfimage cpdfdraw cpdfcomposition cpdfgraphics cpdfshape \ cpdfpng cpdfimage cpdfdraw cpdfcomposition cpdfshape \
cpdfcolours cpdfcommand cpdfcolours cpdfcommand
MODS = $(NONDOC) $(DOC) MODS = $(NONDOC) $(DOC)

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@ -431,8 +431,11 @@ let
let realfontname = ref fontname in let realfontname = ref fontname in
let font = let font =
match cpdffont with match cpdffont with
| Cpdfembed.PreMadeFontPack f -> Some (hd (fst f)) | Cpdfembed.PreMadeFontPack f ->
(*Printf.printf "Cpdfaddtext.addtexts: PreMadeFontPack\n";*)
Some (hd (fst f))
| Cpdfembed.EmbedInfo {fontfile; fontname; encoding} -> | Cpdfembed.EmbedInfo {fontfile; fontname; encoding} ->
(*Printf.printf "Cpdfaddtext.addtexts: EmbedInfo\n";*)
let embedded = Cpdfembed.embed_truetype pdf ~fontfile ~fontname ~codepoints:[] ~encoding in let embedded = Cpdfembed.embed_truetype pdf ~fontfile ~fontname ~codepoints:[] ~encoding in
Some (hd (fst embedded)) Some (hd (fst embedded))
| Cpdfembed.ExistingNamedFont -> None | Cpdfembed.ExistingNamedFont -> None

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@ -1854,12 +1854,12 @@ let addcircle s =
| [x; y; r] -> | [x; y; r] ->
let _, _, segs = hd (snd (Cpdfshape.circle x y r)) in let _, _, segs = hd (snd (Cpdfshape.circle x y r)) in
(match segs with (match segs with
| Cpdfgraphics.Bezier ((a, b), _, _, _)::_ -> addop (Cpdfdraw.To (a, b)) | Cpdfshape.Bezier ((a, b), _, _, _)::_ -> addop (Cpdfdraw.To (a, b))
| _ -> assert false); | _ -> assert false);
iter iter
(function (function
| Cpdfgraphics.Bezier (_, (c, d), (e, f), (g, h)) -> addop (Cpdfdraw.Bezier (c, d, e, f, g, h)) | Cpdfshape.Bezier (_, (c, d), (e, f), (g, h)) -> addop (Cpdfdraw.Bezier (c, d, e, f, g, h))
| Cpdfgraphics.Straight _ -> assert false) | Cpdfshape.Straight _ -> assert false)
segs segs
| _ -> error "-circle requires three numbers" | _ -> error "-circle requires three numbers"
| exception _ -> error "malformed -circle" | exception _ -> error "malformed -circle"

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@ -4,6 +4,25 @@
primitives (circles, regular polygons etc). *) primitives (circles, regular polygons etc). *)
open Pdfutil open Pdfutil
type fpoint = float * float
type winding_rule = EvenOdd | NonZero
type segment =
| Straight of fpoint * fpoint
| Bezier of fpoint * fpoint * fpoint * fpoint
(* Each segment list may be marked as a hole or not. *)
type hole = Hole | Not_hole
(* A [subpath] is either closed or open. *)
type closure = Closed | Open
(* A [subpath] is the pair of a hole and a list of segments. *)
type subpath = hole * closure * segment list
(* A path is made from a number of subpaths. *)
type path = winding_rule * subpath list
(* \section{Common geometric functions} *) (* \section{Common geometric functions} *)
(* The factor by which we multiply the radius to find the length of the bezier (* The factor by which we multiply the radius to find the length of the bezier
@ -52,13 +71,13 @@ let quarter s (cx, cy) r =
match match
map (Pdftransform.transform transform) standard_quarter_points map (Pdftransform.transform transform) standard_quarter_points
with with
| [p; q; r; s] -> Cpdfgraphics.Bezier(p, q, r, s) | [p; q; r; s] -> Bezier(p, q, r, s)
| _ -> raise (Pdf.PDFError ("Shapes.quarter: inconsistency")) | _ -> raise (Pdf.PDFError ("Shapes.quarter: inconsistency"))
(* The anticlockwise variant. *) (* The anticlockwise variant. *)
let quarter_anticlockwise s c r = let quarter_anticlockwise s c r =
match quarter s c r with match quarter s c r with
| Cpdfgraphics.Bezier(p, q, r, s) -> Cpdfgraphics.Bezier(s, r, q, p) | Bezier(p, q, r, s) -> Bezier(s, r, q, p)
| _ -> raise (Pdf.PDFError "Shapes.quarter_anticlockwise: inconsistency") | _ -> raise (Pdf.PDFError "Shapes.quarter_anticlockwise: inconsistency")
(* Some of the following functions generate what is supposed to be a connected (* Some of the following functions generate what is supposed to be a connected
@ -71,8 +90,8 @@ let rec joinsegs segments =
match segments with match segments with
| [] -> [] | [] -> []
| [x] -> [x] | [x] -> [x]
| Cpdfgraphics.Bezier(_, _, _, d) as s::Cpdfgraphics.Bezier(_, b', c', d')::rest -> | Bezier(_, _, _, d) as s::Bezier(_, b', c', d')::rest ->
s::joinsegs (Cpdfgraphics.Bezier(d, b', c', d')::rest) s::joinsegs (Bezier(d, b', c', d')::rest)
| _ -> raise (Pdf.PDFError "PDFShapes.joinsegs: Segment not supported") | _ -> raise (Pdf.PDFError "PDFShapes.joinsegs: Segment not supported")
(* This version sets the start and end points to p1 and p2 respectively. Used (* This version sets the start and end points to p1 and p2 respectively. Used
@ -80,11 +99,11 @@ for ensuring round joins join correctly to the rails they connect *)
let joinsegs_ends p1 p2 segments = let joinsegs_ends p1 p2 segments =
match joinsegs segments with match joinsegs segments with
| [] -> [] | [] -> []
| [Cpdfgraphics.Bezier(a, b, c, d)] -> [Cpdfgraphics.Bezier(p1, b, c, p2)] | [Bezier(a, b, c, d)] -> [Bezier(p1, b, c, p2)]
| segs -> | segs ->
match extremes_and_middle segs with match extremes_and_middle segs with
| Cpdfgraphics.Bezier(_, b, c, d), m, Cpdfgraphics.Bezier(a', b', c', _) -> | Bezier(_, b, c, d), m, Bezier(a', b', c', _) ->
Cpdfgraphics.Bezier(p1, b, c, d)::m @ [Cpdfgraphics.Bezier(a', b', c', p2)] Bezier(p1, b, c, d)::m @ [Bezier(a', b', c', p2)]
| _ -> raise (Pdf.PDFError "PDFShapes.joinsegs_ends: Segment not supported") | _ -> raise (Pdf.PDFError "PDFShapes.joinsegs_ends: Segment not supported")
(* The shorter arc made from bezier curves from [p1] to [p2] with centre [c]. (* The shorter arc made from bezier curves from [p1] to [p2] with centre [c].
@ -127,9 +146,9 @@ are of equal length, the one chosen is undefined. *)
(* Approximate a circle using four bezier curves.*) (* Approximate a circle using four bezier curves.*)
let circle x y r = let circle x y r =
Cpdfgraphics.NonZero, NonZero,
[(Cpdfgraphics.Not_hole, [(Not_hole,
Cpdfgraphics.Closed, Closed,
joinsegs joinsegs
[quarter 0. (x, y) r; [quarter 0. (x, y) r;
quarter (pi /. 2.) (x, y) r; quarter (pi /. 2.) (x, y) r;
@ -137,10 +156,10 @@ let circle x y r =
quarter (3. *. pi /. 2.) (x, y) r ])] quarter (3. *. pi /. 2.) (x, y) r ])]
let rectangle x y w h = let rectangle x y w h =
(Cpdfgraphics.EvenOdd, (EvenOdd,
([(Cpdfgraphics.Not_hole, ([(Not_hole,
Cpdfgraphics.Closed, Closed,
[Cpdfgraphics.Straight ((x, y), (x +. w, y)); [Straight ((x, y), (x +. w, y));
Cpdfgraphics.Straight ((x +. w, y), (x +. w, y +. h)); Straight ((x +. w, y), (x +. w, y +. h));
Cpdfgraphics.Straight ((x +. w, y +. h), (x, y +. h)); Straight ((x +. w, y +. h), (x, y +. h));
Cpdfgraphics.Straight ((x, y +. h), (x, y))])])) Straight ((x, y +. h), (x, y))])]))

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@ -1,5 +1,24 @@
(** Basic Shapes *) (** Basic Shapes *)
type fpoint = float * float
type winding_rule = EvenOdd | NonZero
type segment =
| Straight of fpoint * fpoint
| Bezier of fpoint * fpoint * fpoint * fpoint
(* Each segment list may be marked as a hole or not. *)
type hole = Hole | Not_hole
(* A [subpath] is either closed or open. *)
type closure = Closed | Open
(* A [subpath] is the pair of a hole and a list of segments. *)
type subpath = hole * closure * segment list
(* A path is made from a number of subpaths. *)
type path = winding_rule * subpath list
(** The factor by which the radius of a circle is multiplied to find the length (** The factor by which the radius of a circle is multiplied to find the length
of the bezier control lines when approximating quarter arcs to make circles. *) of the bezier control lines when approximating quarter arcs to make circles. *)
val kappa : float val kappa : float
@ -10,8 +29,8 @@ val restrict_angle : float -> float -> float
(** Calling [circle x y r] builds a path representing a circle at [(x, y)] with (** Calling [circle x y r] builds a path representing a circle at [(x, y)] with
radius [r]. *) radius [r]. *)
val circle : float -> float -> float -> Cpdfgraphics.path val circle : float -> float -> float -> path
(** Calling [rectangle x y w h] builds a path representing a rectangle with top (** Calling [rectangle x y w h] builds a path representing a rectangle with top
left [(x, y)], width [w] and height [h]. *) left [(x, y)], width [w] and height [h]. *)
val rectangle : float -> float -> float -> float -> Cpdfgraphics.path val rectangle : float -> float -> float -> float -> path

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@ -2,9 +2,9 @@
open Pdfutil open Pdfutil
open Pdfio open Pdfio
let fontpack_experiment = false let fontpack_experiment = true
let dbg = ref true let dbg = ref false
type t = type t =
{flags : int; {flags : int;
@ -436,8 +436,12 @@ let subset_font major minor tables indexToLocFormat subset encoding cmap loca mk
end; end;
obs obs
(* FIXME: remove *)
let _ =
Pdfe.logger := (fun s -> print_string s; flush stdout)
let parse ?(subset=[]) data encoding = let parse ?(subset=[]) data encoding =
if !dbg then (*if !dbg then*)
begin begin
Printf.printf "********SUBSET is "; Printf.printf "********SUBSET is ";
iter (Printf.printf "%i ") subset; iter (Printf.printf "%i ") subset;
@ -554,7 +558,7 @@ let parse ?(subset=[]) data encoding =
end; end;
let flags = calculate_flags italicangle in let flags = calculate_flags italicangle in
let firstchar_1, lastchar_1 = calculate_limits subset_1 in let firstchar_1, lastchar_1 = calculate_limits subset_1 in
let firstchar_2, lastchar_2 = (0, length subset_2 - 1) in let firstchar_2, lastchar_2 = (0, max 0 (length subset_2 - 1)) in
let numOfLongHorMetrics = let numOfLongHorMetrics =
match keep (function (t, _, _, _) -> string_of_tag t = "hhea") !tables with match keep (function (t, _, _, _) -> string_of_tag t = "hhea") !tables with
| (_, _, o, l)::_ -> let b = mk_b (i32toi o) in read_hhea_table b | (_, _, o, l)::_ -> let b = mk_b (i32toi o) in read_hhea_table b
@ -565,9 +569,9 @@ let parse ?(subset=[]) data encoding =
| (_, _, o, _)::_ -> read_hmtx_table numOfLongHorMetrics (mk_b (i32toi o)) | (_, _, o, _)::_ -> read_hmtx_table numOfLongHorMetrics (mk_b (i32toi o))
| [] -> raise (Pdf.PDFError "No hmtx table found in TrueType font") | [] -> raise (Pdf.PDFError "No hmtx table found in TrueType font")
in in
(*Printf.printf "firstchar_1, lastchar_1, firstchar_2, lastchar_2 = %i, %i, %i%, %i\n" firstchar_1 lastchar_1 firstchar_2 lastchar_2;*) Printf.printf "firstchar_1, lastchar_1, firstchar_2, lastchar_2 = %i, %i, %i%, %i\n" firstchar_1 lastchar_1 firstchar_2 lastchar_2;
let widths_1 = calculate_widths unitsPerEm encoding firstchar_1 lastchar_1 subset_1 !glyphcodes hmtxdata in let widths_1 = calculate_widths unitsPerEm encoding firstchar_1 lastchar_1 subset_1 !glyphcodes hmtxdata in
(*let widths_2 = calculate_widths unitsPerEm encoding firstchar_2 lastchar_2 subset_2 !glyphcodes hmtxdata in*) let widths_2 = calculate_widths unitsPerEm encoding firstchar_2 lastchar_2 subset_2 !glyphcodes hmtxdata in
let maxwidth = calculate_maxwidth unitsPerEm hmtxdata in let maxwidth = calculate_maxwidth unitsPerEm hmtxdata in
let stemv = calculate_stemv () in let stemv = calculate_stemv () in
let b = mk_b (i32toi locaoffset) in let b = mk_b (i32toi locaoffset) in
@ -581,23 +585,23 @@ let parse ?(subset=[]) data encoding =
subset_font major minor !tables indexToLocFormat subset_1 subset_font major minor !tables indexToLocFormat subset_1
encoding !glyphcodes loca mk_b glyfoffset data encoding !glyphcodes loca mk_b glyfoffset data
in in
(*let second_subset = let second_subset =
subset_font major minor !tables indexToLocFormat subset_2 subset_font major minor !tables indexToLocFormat subset_2
encoding !glyphcodes loca mk_b glyfoffset data encoding !glyphcodes loca mk_b glyfoffset data
in*) in
(*let second_tounicode = let second_tounicode =
if subset = [] then None else if subset = [] then None else
let h = null_hash () in let h = null_hash () in
let s = (implode (tl (tl (explode (Pdftext.utf16be_of_codepoints [hd subset]))))) in let s = (implode (tl (tl (explode (Pdftext.utf16be_of_codepoints [hd subset]))))) in
Printf.printf "String for tounicode = %S\n" s; Printf.printf "String for tounicode = %S\n" s;
Hashtbl.add h 0 s; Hashtbl.add h 0 s;
Some h Some h
in*) in
[{flags; minx; miny; maxx; maxy; italicangle; ascent; descent; [{flags; minx; miny; maxx; maxy; italicangle; ascent; descent;
capheight; stemv; xheight; avgwidth; maxwidth; firstchar = firstchar_1; lastchar = lastchar_1; capheight; stemv; xheight; avgwidth; maxwidth; firstchar = firstchar_1; lastchar = lastchar_1;
widths = widths_1; subset_fontfile = main_subset; subset = subset_1; tounicode = None}] widths = widths_1; subset_fontfile = main_subset; subset = subset_1; tounicode = None}]
(*@ if fontpack_experiment then @ if fontpack_experiment then
[{flags; minx; miny; maxx; maxy; italicangle; ascent; descent; [{flags; minx; miny; maxx; maxy; italicangle; ascent; descent;
capheight; stemv; xheight; avgwidth; maxwidth; firstchar = firstchar_2; lastchar = lastchar_2; capheight; stemv; xheight; avgwidth; maxwidth; firstchar = firstchar_2; lastchar = lastchar_2;
widths = widths_2; subset_fontfile = second_subset; subset = subset_2; widths = widths_2; subset_fontfile = second_subset; subset = subset_2;
tounicode = second_tounicode}] else []*) tounicode = second_tounicode}] else []

1
old/README.md Normal file
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@ -0,0 +1 @@
An old, unfinished module from CPDF's very early life. To be resuccitated one day?