package codept-lib
Alternative ocaml dependency analyzer
Install
Dune Dependency
Authors
Maintainers
Sources
codept-0.12.1.tbz
sha256=381d300bad1d526d241414d74c670853896547c10efe69f56a1838f00264f69b
sha512=1517e482a60ed9c76cceff0f64ef73b28a667800fb5bd0a0f142487bbd9c36aadc9534b70de1d261027bd7164dc80ac620d8c04cc94990f627db49e96f786ae5
doc/src/codept-lib.bundled/bundle.ml.html
Source file bundle.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 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220open Module open Sig let version () = Scanf.sscanf Sys.ocaml_version "%d.%d" (fun x y -> x, y) let top f x = Dict.of_list @@ List.map f x let root ?(special="stdlib") ?(nms=["Stdlib"]) ?(mds=[]) ?(mts=[]) name = let path = Namespaced.make ~nms name in let origin = Origin.Unit {source={source=Special special; file=path}; path} in name, Sig { origin; signature=of_lists mds mts} let simple ?special ?nms name = root ?special ?nms name let submodule ?special:_ ?nms:_ ?(mds=[]) ?(mts=[]) name = name, Sig { origin=Submodule; signature=of_lists mds mts} let mkfunctor ?(sg=empty) f xs = let arg name = Some {Arg.name=Some name; signature=Sig { origin=Submodule; signature=empty}} in let fn = List.fold_right (fun a x -> Fun(arg a,x)) xs (Sig {origin=Submodule; signature=sg}) in f, fn let weak = root "Weak" ~mds:[mkfunctor "Make" ["H"]] ~mts:[submodule "S"] let ephemeron v = let fn name = mkfunctor name ["H"] in let genhastable = if v < (5,0) then [submodule "GenHashTable" ~mds:[fn "MakeSeeded"]] else [] in let ksub fn = let base = [fn "Make"; fn "MakeSeeded"] in if v < (4,14) then base else submodule "Bucket" :: base in let k n = submodule ("K"^n) ~mds:(ksub fn) in let k2 = let fn n = mkfunctor n ["H1";"H2"] in submodule "K2" ~mds:(ksub fn) in root "Ephemeron" ~mds:(genhastable @ [k "1"; k2; k "n"]) ~mts:[submodule "S"; submodule "SeededS"] let chain name sub = root name ~mds:(List.map submodule sub) let pervasives = chain "Pervasives" ["LargeFile"] let obj v = if v >= (4, 12) && v < (5,2) then chain "Obj" ["Closure"; "Ephemeron"; "Extension_constructor"] else if v >= (4, 8) then chain "Obj" ["Ephemeron"; "Extension_constructor"] else chain "Obj" ["Ephemeron"] let printexc = chain "Printexc" ["Slot"] let random = chain "Random" ["State"] let scanf = chain "Scanf" ["Scanning"] let array version = if version >= (4,06) then chain "Array" ["Floatarray"] else simple "Array" let array_labels version = if version >= (4,06) then chain "ArrayLabels" ["Floatarray"] else simple "ArrayLabels" let gc v = if v < (4,11) then simple "Gc" else chain "Gc" ["Memprof"] let chained version = [ gc version; array version; array_labels version; obj version; printexc; random;scanf ] let simples = List.map simple [ "Arg"; "Buffer"; "Bytes"; "BytesLabels"; "Callback"; "CamlinternalOO"; "CamlinternalLazy"; "CamlinternalFormat"; "CamlinternalFormatBasics"; "CamlinternalMod"; "Char"; "Complex"; "Filename"; "Format"; "Int32"; "Int64"; "Lazy"; "Lexing"; "List"; "ListLabels"; "Marshal"; "Nativeint"; "Oo"; "Parsing"; "Printf"; "Queue"; "Stack"; "String"; "StringLabels"; "Uchar"; "LargeFile" ] type 'p mk = ?special:string -> ?nms:Namespaced.p -> ?mds:'a -> ?mts:'b -> 'c constraint 'p = 'a * 'b * 'c let hashtbl (mk: _ mk) = mk "Hashtbl" ~mds:[mkfunctor "Make" ["H"]; mkfunctor "MakeSeeded" ["H"]] ~mts:[submodule "HashedType"; submodule "S"; submodule "SeededHashedType"; submodule "SeededS"; ] let map (mk: _ mk) = mk "Map" ~mds:[mkfunctor "Make" ["Ord"]] ~mts:[submodule "OrderedType"; submodule "S"] let set (mk: _ mk) = mk "Set" ~mds:[mkfunctor "Make" ["Ord"]] ~mts:[submodule "OrderedType"; submodule "S"] let immediate64 = submodule "Immediate64" ~mds:[mkfunctor "Make" ["Immediate"; "Non_immediate"] ] ~mts:[submodule "Immediate"; submodule "Non_immediate"] let sys = root "Sys" ~mds:[immediate64] let alias ?nms suffix name = name, Alias {path=Namespaced.make ?nms (name ^ suffix);phantom=None} let stdlabels v = if v < (4,7) then (* ??? *) root "StdLabels" ~mds:(alias "Labels" "String" :: List.map (alias ~nms:["Stdlib"] "Labels") ["Array"; "List"; "Bytes"]) else root "StdLabels" ~mds:(List.map (alias "Labels") [ "Array"; "List"; "Bytes"; "String"]) let spacetime = root "Spacetime" ~mds:[submodule "Series"; submodule "Snapshot"] let hms_base = [hashtbl; map; set] let more_labels = root "MoreLabels" ~mds:(List.map ((|>) submodule) hms_base) let hms = List.map ((|>) root) hms_base let before version v x = if version < v then x else [] let after version v x = if version >= v then x else [] let in_between version v1 v2 x = if version >= v1 && version < v2 then x else [] let bigarray ?special ?nms () = root ?special ?nms "Bigarray" ~mds:[ submodule "Array0"; submodule "Array1"; submodule "Array2"; submodule "Array3"; submodule "Genarray"; ] let digest v = if v < (5,2) then simple "Digest" else root "Digest" ~mds:(List.map submodule ["BLAKE128"; "BLAKE256"; "BLAKE512"; "MD5"]) ~mts:(List.map submodule ["S"]) let complex v = after v (4,10) [sys] @ digest v :: weak :: hms @ more_labels :: stdlabels v :: chained v let float version = if version < (4,07) then simple "Float" else if version < (4,08) then chain "Float" ["Array"] else chain "Float" ["Array"; "ArrayLabels"] let effekt = chain "Effect" ["Deep"; "Shallow"] let semaphore = chain "Semaphore" ["Binary"; "Counting"] let domain = chain "Domain" ["DLS"] let simple_stdlib v = Dict.of_list @@ before v (4,07) [simple "CamlinternalBigarray"] @ before v (4,08) [pervasives; simple "Sort"] @ after v (4,03) [ephemeron v] @ in_between v (4,04) (4,12) [spacetime] @ after v (4,07) [bigarray ();float v; simple "Seq"] @ after v (4,08) (List.map simple ["Fun";"Bool";"Option";"Int";"Result"; "Unit"]) @ before v (4,10) [simple "Sys"] @ after v (4,12) [simple "Either"; simple "Atomic"] @ in_between v (4,12) (5,0) [ simple "CamlinternalAtomic"] @ after v (4,14) [simple "In_channel"; simple "Out_channel"] @ before v (5,0) (List.map simple ["Stream";"Genlex"]) @ after v (5,0) [semaphore; effekt; domain; simple "Condition"; simple "Mutex"] @ after v (5,1) [chain "Type" ["Id"]] @ after v (5,2) [simple "Dynarray"] @ complex v @ simples let versioned_stdlib v = ["Stdlib", Namespace (simple_stdlib v)] let stdlib = Dict.of_list @@ versioned_stdlib @@ version () let num = top (simple ~special:"stdlib/num" ~nms:[]) ["Arith_flags"; "Arith_status"; "Big_int"; "Int_misc"; "Nat"; "Num"; "Ratio"] let bigarray = Dict.of_list [bigarray ~special:"stdlib/bigarray" ~nms:[] ()] let unix = top (fun x -> root ~special:"stdlib/unix" ~nms:[] x ~mds:[submodule "LargeFile"] ) [ "Unix"; "UnixLabels"] let graphics = top (fun x -> root ~special:"stdlib/graphics" ~nms:[] x) [ "Graphics";"GraphicsX11"] let threads = top (fun x -> root ~special:"stdlib/threads" ~nms:[] x) [ "Condition"; "Event"; "Mutex"; "Thread"; "ThreadUnix"] let dynlink = Dict.of_list [root ~special:"stdlib/dynlink" ~nms:[] "Dynlink"]