package carton
Implementation of PACKv2 file in OCaml
Install
dune-project
Dependency
Authors
Maintainers
Sources
carton-1.1.0.tbz
sha256=f7d8bf836b5ae2c7d72b72460f1319a176351923b446395f6551906d3a273628
sha512=534b12ec8ba73d135dc8242d49cdac064414cf6c2257d6aac30b163697c676b9f5571ba85dec2af5116693e4520fb9bc97bc20f2356b05bc39817eea50a175d8
doc/src/carton/zh.ml.html
Source file zh.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206module N : sig type encoder type dst = [ `Buffer of Buffer.t | `Manual ] type ret = [ `Flush of encoder | `End ] val dst_rem : encoder -> int val dst : encoder -> Bstr.t -> int -> int -> encoder val encode : encoder -> ret val encoder : ?level:int -> i:Bstr.t -> q:De.Queue.t -> w:De.Lz77.window -> source:int -> Bstr.t -> dst -> Duff.hunk list -> encoder end = struct type dst = [ `Buffer of Buffer.t | `Manual ] type encoder = { dst: dst ; o: Bstr.t ; o_pos: int ; o_max: int ; h: H.N.encoder ; z: Zl.Def.encoder ; t: Bstr.t ; d: [ `Copy of int * int | `Insert of string | `End | `Await ] list } type ret = [ `Flush of encoder | `End ] let flush k e = match e.dst with | `Manual -> `Flush e | `Buffer b -> for i = 0 to e.o_pos - 1 do Buffer.add_char b (Bstr.get e.o i) done; k { e with o_pos= 0 } let rec encode_z e = match Zl.Def.encode e.z with | `End z -> let len = Bstr.length e.o - Zl.Def.dst_rem z in let z = Zl.Def.dst z Bstr.empty 0 0 in if len > 0 then flush encode_z { e with z; o_pos= len } else `End | `Flush z -> let len = Bstr.length e.o - Zl.Def.dst_rem z in flush encode_z { e with z; o_pos= len } | `Await z -> ( match e.d with | [] -> let z = Zl.Def.src z Bstr.empty 0 0 in encode_z { e with z } | d -> H.N.dst e.h e.t 0 (Bstr.length e.t); encode_h { e with z } d) and encode_h e d = let v, d = match d with v :: d -> (v, d) | [] -> (`End, []) in match (H.N.encode e.h v, d) with | `Ok, [] -> let len = Bstr.length e.t - H.N.dst_rem e.h in let z = Zl.Def.src e.z e.t 0 len in encode_z { e with d; z } | `Ok, d -> encode_h { e with d } d | `Partial, d -> let len = Bstr.length e.t - H.N.dst_rem e.h in let z = Zl.Def.src e.z e.t 0 len in encode_z { e with d= `Await :: d; z } let encode e = encode_z e let encoder ?(level = 4) ~i ~q ~w ~source src dst hunks = let o, o_pos, o_max = match dst with | `Manual -> (Bstr.empty, 1, 0) | `Buffer _ -> (Bstr.create De.io_buffer_size, 0, De.io_buffer_size - 1) in let z = Zl.Def.encoder `Manual `Manual ~q ~w ~level in let z = Zl.Def.dst z Bstr.empty 0 0 in let dst_len = Bstr.length src in let fn = function | Duff.Copy (off, len) -> `Copy (off, len) | Duff.Insert (off, len) -> `Insert (Bstr.sub_string src ~off ~len) in { dst ; o ; o_pos ; o_max ; t= i ; d= List.map fn hunks ; z ; h= H.N.encoder `Manual ~dst_len ~src_len:source } let dst_rem e = e.o_max - e.o_pos + 1 let dst e s j l = let z = Zl.Def.dst e.z s j l in { e with z; o= s; o_pos= j; o_max= j + l - 1 } end module M : sig type decoder type src = [ `String of string | `Manual ] type decode = [ `Await of decoder | `Header of int * int * decoder | `End of decoder | `Malformed of string ] val src_len : decoder -> int val dst_len : decoder -> int val src_rem : decoder -> int val dst_rem : decoder -> int val src : decoder -> Bstr.t -> int -> int -> decoder val dst : decoder -> Bstr.t -> int -> int -> decoder val source : decoder -> Bstr.t -> decoder val decode : decoder -> decode val decoder : ?source:Bstr.t -> o:Bstr.t -> allocate:(int -> Zl.window) -> src -> decoder end = struct type src = [ `String of string | `Manual ] type decoder = { src: src ; dst_len: int ; src_len: int ; o: Bstr.t ; z: Zl.Inf.decoder ; h: H.M.decoder ; k: decoder -> decode } and decode = [ `Await of decoder | `Header of int * int * decoder | `End of decoder | `Malformed of string ] let refill k d = match d.src with | `String _ -> let z = Zl.Inf.src d.z Bstr.empty 0 0 in k { d with z } | `Manual -> `Await { d with k } let rec decode d = match H.M.decode d.h with | `Header (src_len, dst_len) -> `Header (src_len, dst_len, { d with src_len; dst_len; k= decode }) | `End -> `End { d with k= decode } | `Malformed err -> `Malformed err | `Await -> inflate { d with z= Zl.Inf.flush d.z } and inflate d = match Zl.Inf.decode d.z with | `Await z -> let dst_len = Bstr.length d.o - Zl.Inf.dst_rem z in H.M.src d.h d.o 0 dst_len; refill inflate { d with z } | `End z -> let dst_len = Bstr.length d.o - Zl.Inf.dst_rem z in H.M.src d.h d.o 0 dst_len; decode { d with z } | `Flush z -> let dst_len = Bstr.length d.o - Zl.Inf.dst_rem z in H.M.src d.h d.o 0 dst_len; decode { d with z } | `Malformed err -> `Malformed err let src d s j l = let z = Zl.Inf.src d.z s j l in { d with z } let dst d bstr off len = H.M.dst d.h bstr off len; d let source d src = H.M.source d.h src; d let dst_len d = let dst_len = H.M.dst_len d.h in assert (d.dst_len = dst_len); dst_len let src_len d = let src_len = H.M.src_len d.h in assert (d.src_len = src_len); src_len let dst_rem d = H.M.dst_rem d.h let src_rem d = Zl.Inf.src_rem d.z let decoder ?source ~o ~allocate src = let decoder_z = Zl.Inf.decoder `Manual ~o ~allocate in let decoder_h = H.M.decoder `Manual ?source in { src; dst_len= 0; src_len= 0; o; z= decoder_z; h= decoder_h; k= decode } let decode d = d.k d end