package dolmen
A parser library for automated deduction
Install
Dune Dependency
Authors
Maintainers
Sources
dolmen-0.7.tbz
sha256=ff2889fa9d467d5b4d87ae4f819a64358715f457cc6226b455463c2fcd4ab2af
sha512=d6ba56945aabcf0886e83fcf44c45f2f8afcf68e48d2f0b25f9cd8e60d18106fae3976fee49d3e291b2e0ab3266837ad5eff800dc51fe2b3aab15ad81ea58cbb
doc/src/dolmen.std/maps_string.ml.html
Source file maps_string.ml
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See file "LICENSE" for more information *) (* PARTS: Persistent Adaptive Radix Tree for Strings This implementation is heavily inspired by the following paper: The Adaptive Radix Tree: ARTful Indexing for Main-Memory Databases by Viktor Leis, Alfons Kemper, Thomas Neumann https://db.in.tum.de/~leis/papers/ART.pdf *) (* Some constants *) (* ************************************************************************* *) let dichotomy_threshold = 16 let indirect_threshold = 48 let () = assert (indirect_threshold - dichotomy_threshold > 2); assert (indirect_threshold < 255); () (* Type definitions *) (* ************************************************************************* *) type 'a t = | Leaf of { value : 'a option; } | Prefix of { value : 'a option; prefix : string; child : 'a t; } | Dichotomy of { value : 'a option; keys : string; children : 'a t array; } | Indirect of { value : 'a option; keys : string; children : 'a t array; } | Direct of { value : 'a option; children : 'a t array; } (* Find *) (* ************************************************************************* *) let rec find_aux key len offset t = if offset = len then match t with | Leaf { value; } | Prefix { value; _ } | Dichotomy { value; _ } | Indirect { value; _ } | Direct { value; _ } -> value else begin assert (offset < len); match t with | Leaf _ -> None | Prefix { prefix; child; value = _; } -> let n = String.length prefix in if offset + n > len then None else begin let i = ref 0 in while !i < n && offset + !i < len && String.unsafe_get prefix !i = String.unsafe_get key (offset + !i) do i := !i + 1 done; if !i = n then find_aux key len (offset + !i) child else None end | Dichotomy { keys; children; value = _; } -> let c = String.unsafe_get key offset in let n = Array.length children in let l = ref 0 in let r = ref n in while !l < !r do let m = (!l + !r) / 2 in if String.unsafe_get keys m < c then l := m + 1 else r := m done; let m = !l in if m < n && String.unsafe_get keys m = c then find_aux key len (offset + 1) (Array.unsafe_get children m) else None | Indirect { keys; children; value = _; } -> let i = Char.code (String.unsafe_get key offset) in let j = Char.code (String.unsafe_get keys i) in if j > indirect_threshold then None else find_aux key len (offset + 1) (Array.unsafe_get children j) | Direct { children; value = _; } -> let i = Char.code (String.unsafe_get key offset) in find_aux key len (offset + 1) (Array.unsafe_get children i) end (* Creation/Insertion *) (* ************************************************************************* *) let[@inline] array_insert a m x = let n = Array.length a in let a' = Array.make (n + 1) x in Array.blit a 0 a' 0 m; Array.blit a m a' (m + 1) (n - m); a' let[@inline] string_insert s m c = let n = String.length s in let b = Bytes.make (n + 1) c in Bytes.blit_string s 0 b 0 m; Bytes.blit_string s m b (m + 1) (n - m); Bytes.unsafe_to_string b let empty = Leaf { value = None; } let[@inline] with_value value = function | Leaf _ -> Leaf { value; } | Prefix { value = _; prefix; child; } -> Prefix { value; prefix; child; } | Dichotomy { value = _; keys; children; } -> Dichotomy { value; keys; children; } | Indirect { value = _; keys; children } -> Indirect { value; keys; children; } | Direct { value = _; children; } -> Direct { value; children; } let[@inline] mk_prefix value prefix child = match prefix, value, child with | "", None, _ -> child | "", (Some _), _ -> with_value value child | _, _, Prefix { prefix = p'; child; value = None; } -> let prefix = prefix ^ p' in Prefix { prefix; child; value; } | _ -> Prefix { prefix; child; value; } let sub_after s off = if off = String.length s then "" else String.sub s off (String.length s - off) let rec add_aux key v len offset t = if offset = len then with_value (Some v) t else begin assert (offset < len); match t with | Leaf { value; } -> let prefix = String.sub key offset (len - offset) in let child = Leaf { value = Some v; } in mk_prefix value prefix child | Prefix { prefix; child; value; } -> let i = ref 0 in let n = String.length prefix in while !i < n && offset + !i < len && prefix.[!i] = key.[offset + !i] do i := !i + 1 done; if !i = n then begin let child = add_aux key v len (offset + !i) child in mk_prefix value prefix child end else if offset + !i = len then begin let pre = String.sub prefix 0 !i in let post = String.sub prefix !i (n - !i) in mk_prefix value pre (mk_prefix (Some v) post child) end else begin let pre = String.sub prefix 0 !i in let post = sub_after prefix (!i + 1) in let post_key = sub_after key (offset + !i + 1) in let c0 = String.unsafe_get prefix !i in let child0 = mk_prefix None post child in let c1 = String.unsafe_get key (offset + !i) in let child1 = mk_prefix None post_key (Leaf { value = Some v; }) in let c0, child0, c1, child1 = if c0 <= c1 then c0, child0, c1, child1 else c1, child1, c0, child0 in let keys = Bytes.make 2 c1 in Bytes.unsafe_set keys 0 c0; let keys = Bytes.unsafe_to_string keys in let children = [| child0; child1; |] in let node = Dichotomy { value = None; keys; children; } in mk_prefix value pre node end | Dichotomy { keys; children; value; } -> let c = key.[offset] in let n = Array.length children in let l = ref 0 in let r = ref n in while !l < !r do let m = (!l + !r) / 2 in if keys.[m] < c then l := m + 1 else r := m done; let m = !l in if m < n && keys.[m] = c then begin let child = add_aux key v len (offset + 1) children.(m) in let children = Array.copy children in children.(m) <- child; Dichotomy { keys; children; value; } end else begin let key_post = sub_after key (offset + 1) in let child = mk_prefix None key_post (Leaf { value = Some v; }) in if n < dichotomy_threshold then begin let children = array_insert children m child in let keys = string_insert keys m c in Dichotomy { keys; children; value; } end else begin let children = Array.append children [| child |] in let b = Bytes.make 256 (Char.unsafe_chr 255) in Bytes.unsafe_set b (Char.code c) (Char.unsafe_chr n); for i = 0 to n - 1 do let c = String.unsafe_get keys i in Bytes.unsafe_set b (Char.code c) (Char.unsafe_chr i) done; let keys = Bytes.unsafe_to_string b in Indirect { keys; children; value; } end end | Indirect { keys; children; value; } -> let i = Char.code (String.unsafe_get key offset) in let j = Char.code (String.unsafe_get keys i) in if j < 255 then begin let child = add_aux key v len (offset + 1) (Array.unsafe_get children j) in let children = Array.copy children in children.(j) <- child; let b = Bytes.of_string keys in Bytes.unsafe_set b i (Char.unsafe_chr j); let keys = Bytes.unsafe_to_string b in Indirect { keys; children; value; } end else begin let key_post = sub_after key (offset + 1) in let child = mk_prefix None key_post (Leaf { value = Some v; }) in let n = Array.length children in if n < indirect_threshold then begin let children = Array.append children [| child |] in let b = Bytes.of_string keys in Bytes.unsafe_set b i (Char.unsafe_chr n); let keys = Bytes.unsafe_to_string b in Indirect { keys; children; value; } end else begin let new_children = Array.make 256 empty in Array.unsafe_set new_children i child; for c = 0 to 255 do let k = Char.code (String.unsafe_get keys c) in if k < 255 then Array.unsafe_set new_children c (Array.unsafe_get children k) done; Direct { value; children = new_children; } end end | Direct { children; value; } -> let i = Char.code (String.unsafe_get key offset) in let child = add_aux key v len (offset + 1) (Array.unsafe_get children i) in let children = Array.copy children in Array.unsafe_set children i child; Direct { children; value; } end (* Updating *) (* ************************************************************************* *) let rec find_add_aux f key len offset t = if offset = len then match t with | Leaf { value; _ } | Prefix { value; _ } | Dichotomy { value; _ } | Indirect { value; _ } | Direct { value; _ } -> with_value (Some (f value)) t else begin assert (offset < len); match t with | Leaf { value; } -> let v = f None in let prefix = String.sub key offset (len - offset) in let child = Leaf { value = Some v; } in mk_prefix value prefix child | Prefix { prefix; child; value; } -> let i = ref 0 in let n = String.length prefix in while !i < n && offset + !i < len && prefix.[!i] = key.[offset + !i] do i := !i + 1 done; if !i = n then begin let child = find_add_aux f key len (offset + !i) child in mk_prefix value prefix child end else if offset + !i = len then begin let v = f None in let pre = String.sub prefix 0 !i in let post = String.sub prefix !i (n - !i) in mk_prefix value pre (mk_prefix (Some v) post child) end else begin let v = f None in let pre = String.sub prefix 0 !i in let post = sub_after prefix (!i + 1) in let post_key = sub_after key (offset + !i + 1) in let c0 = String.unsafe_get prefix !i in let child0 = mk_prefix None post child in let c1 = String.unsafe_get key (offset + !i) in let child1 = mk_prefix None post_key (Leaf { value = Some v; }) in let c0, child0, c1, child1 = if c0 <= c1 then c0, child0, c1, child1 else c1, child1, c0, child0 in let keys = Bytes.make 2 c1 in Bytes.unsafe_set keys 0 c0; let keys = Bytes.unsafe_to_string keys in let children = [| child0; child1; |] in let node = Dichotomy { value = None; keys; children; } in mk_prefix value pre node end | Dichotomy { keys; children; value; } -> let c = key.[offset] in let n = Array.length children in let l = ref 0 in let r = ref n in while !l < !r do let m = (!l + !r) / 2 in if keys.[m] < c then l := m + 1 else r := m done; let m = !l in if m < n && keys.[m] = c then begin let child = find_add_aux f key len (offset + 1) children.(m) in let children = Array.copy children in children.(m) <- child; Dichotomy { keys; children; value; } end else begin let v = f None in let key_post = sub_after key (offset + 1) in let child = mk_prefix None key_post (Leaf { value = Some v; }) in if n < dichotomy_threshold then begin let children = array_insert children m child in let keys = string_insert keys m c in Dichotomy { keys; children; value; } end else begin let children = Array.append children [| child |] in let b = Bytes.make 256 (Char.unsafe_chr 255) in Bytes.unsafe_set b (Char.code c) (Char.unsafe_chr n); for i = 0 to n - 1 do let c = String.unsafe_get keys i in Bytes.unsafe_set b (Char.code c) (Char.unsafe_chr i) done; let keys = Bytes.unsafe_to_string b in Indirect { keys; children; value; } end end | Indirect { keys; children; value; } -> let i = Char.code (String.unsafe_get key offset) in let j = Char.code (String.unsafe_get keys i) in if j < 255 then begin let child = find_add_aux f key len (offset + 1) (Array.unsafe_get children j) in let children = Array.copy children in children.(j) <- child; let b = Bytes.of_string keys in Bytes.unsafe_set b i (Char.unsafe_chr j); let keys = Bytes.unsafe_to_string b in Indirect { keys; children; value; } end else begin let v = f None in let key_post = sub_after key (offset + 1) in let child = mk_prefix None key_post (Leaf { value = Some v; }) in let n = Array.length children in if n < indirect_threshold then begin let children = Array.append children [| child |] in let b = Bytes.of_string keys in Bytes.unsafe_set b i (Char.unsafe_chr n); let keys = Bytes.unsafe_to_string b in Indirect { keys; children; value; } end else begin let new_children = Array.make 256 empty in Array.unsafe_set new_children i child; for c = 0 to 255 do let k = Char.code (String.unsafe_get keys c) in if k < 255 then Array.unsafe_set new_children c (Array.unsafe_get children k) done; Direct { value; children = new_children; } end end | Direct { children; value; } -> let i = Char.code (String.unsafe_get key offset) in let child = find_add_aux f key len (offset + 1) (Array.unsafe_get children i) in let children = Array.copy children in Array.unsafe_set children i child; Direct { children; value; } end (* Iteration *) (* ************************************************************************* *) let rec sum_lengths acc = function | [] -> acc | s :: r -> sum_lengths (String.length s + acc) r let rec rev_unsafe_blits b pos = function | [] -> () | s :: r -> let n = String.length s in Bytes.blit_string s 0 b (pos - n) n; rev_unsafe_blits b (pos - n) r let rev_concat = function | [] -> "" | l -> let n = sum_lengths 0 l in let b = Bytes.create n in rev_unsafe_blits b n l; Bytes.unsafe_to_string b let iter_apply f acc = function | None -> () | Some v -> let s = rev_concat acc in f s v let rec iter_aux f acc t = match t with | Leaf { value; } -> iter_apply f acc value | Prefix { value; prefix; child; } -> iter_apply f acc value; iter_aux f (prefix :: acc) child | Dichotomy { value; keys; children; } -> iter_apply f acc value; String.iteri (fun i c -> let s = String.make 1 c in let child = children.(i) in iter_aux f (s :: acc) child ) keys | Indirect { value; keys; children; } -> iter_apply f acc value; String.iter (fun c -> let i = Char.code c in if i < 255 then begin let s = String.make 1 c in let child = children.(i) in iter_aux f (s :: acc) child end) keys | Direct { value; children; } -> iter_apply f acc value; Array.iteri (fun i child -> let c = Char.chr i in let s = String.make 1 c in iter_aux f (s :: acc) child ) children (* Exported interface *) (* ************************************************************************* *) let empty = empty let find_opt k t = find_aux k (String.length k) 0 t let find_exn k t = match find_opt k t with | None -> raise Not_found | Some res -> res let add k v t = add_aux k v (String.length k) 0 t let find_add k f t = find_add_aux f k (String.length k) 0 t let iter f t = iter_aux f [] t let fold f t acc = let r = ref acc in iter_aux (fun s v -> r := f s v !r) [] t; 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