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belt_SortArrayInt.ml
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# 2 "others/sort.cppo.ml"
type element = int
# 9 "others/sort.cppo.ml"
module A = Belt_Array
let rec sortedLengthAuxMore (xs : element array) prec acc len =
if acc >= len then acc
else
let v = A.getUnsafe xs acc in
if prec > v then
sortedLengthAuxMore xs v (acc + 1) len
else acc
let rec sortedLengthAuxLess (xs : element array) prec acc len =
if acc >= len then acc
else
let v = A.getUnsafe xs acc in
if prec < v then
sortedLengthAuxLess xs v (acc + 1) len
else acc
let strictlySortedLength (xs : element array) =
let len = A.length xs in
match len with
| 0 | 1 -> len
| _ ->
let x0, x1 = A.getUnsafe xs 0, A.getUnsafe xs 1 in
(* let c = cmp x0 x1 [@bs] in *)
if x0 < x1 then
sortedLengthAuxLess xs x1 2 len
else if x0 > x1 then
- (sortedLengthAuxMore xs x1 2 len)
else 1
let rec isSortedAux (a : element array) i last_bound =
(* when `i = len - 1`, it reaches the last element*)
if i = last_bound then true
else
if A.getUnsafe a i <= A.getUnsafe a (i+1) then
isSortedAux a (i + 1) last_bound
else false
let isSorted a =
let len = A.length a in
if len = 0 then true
else isSortedAux a 0 (len - 1)
let cutoff = 5
let merge (src : element array) src1ofs src1len src2 src2ofs src2len dst dstofs =
let src1r = src1ofs + src1len and src2r = src2ofs + src2len in
let rec loop i1 s1 i2 s2 d =
if s1 <= s2 then begin
A.setUnsafe dst d s1;
let i1 = i1 + 1 in
if i1 < src1r then
loop i1 (A.getUnsafe src i1) i2 s2 (d + 1)
else
A.blitUnsafe ~src:src2 ~srcOffset:i2 ~dst ~dstOffset:(d + 1) ~len:(src2r - i2)
end else begin
A.setUnsafe dst d s2;
let i2 = i2 + 1 in
if i2 < src2r then
loop i1 s1 i2 (A.getUnsafe src2 i2) (d + 1)
else
A.blitUnsafe ~src ~srcOffset:i1 ~dst ~dstOffset:(d + 1) ~len:(src1r - i1)
end
in
loop src1ofs (A.getUnsafe src src1ofs) src2ofs (A.getUnsafe src2 src2ofs) dstofs
let union (src : element array) src1ofs src1len src2 src2ofs src2len dst dstofs =
let src1r = src1ofs + src1len in
let src2r = src2ofs + src2len in
let rec loop i1 s1 i2 s2 d =
(* let c = cmp s1 s2 [@bs] in *)
if s1 < s2 then begin
(* `s1` is larger than all elements in `d` *)
A.setUnsafe dst d s1;
let i1 = i1 + 1 in
let d = d + 1 in
if i1 < src1r then
loop i1 (A.getUnsafe src i1) i2 s2 d
else
begin
A.blitUnsafe ~src:src2 ~srcOffset:i2 ~dst ~dstOffset:d ~len:(src2r - i2);
d + src2r - i2
end
end
else if s1 = s2 then begin
A.setUnsafe dst d s1;
let i1 = i1 + 1 in
let i2 = i2 + 1 in
let d = d + 1 in
if i1 < src1r && i2 < src2r then
loop i1 (A.getUnsafe src i1) i2 (A.getUnsafe src2 i2) d
else if i1 = src1r then
(A.blitUnsafe ~src:src2 ~srcOffset:i2 ~dst ~dstOffset:d ~len:(src2r - i2);
d + src2r - i2)
else
(A.blitUnsafe ~src ~srcOffset:i1 ~dst ~dstOffset:d ~len:(src1r - i1);
d + src1r - i1)
end
else begin
A.setUnsafe dst d s2;
let i2 = i2 + 1 in
let d = d + 1 in
if i2 < src2r then
loop i1 s1 i2 (A.getUnsafe src2 i2) d
else
(A.blitUnsafe ~src ~srcOffset:i1 ~dst ~dstOffset:d ~len:(src1r - i1);
d + src1r - i1
)
end
in
loop src1ofs
(A.getUnsafe src src1ofs)
src2ofs
(A.getUnsafe src2 src2ofs) dstofs
let intersect (src : element array) src1ofs src1len src2 src2ofs src2len dst dstofs =
let src1r = src1ofs + src1len in
let src2r = src2ofs + src2len in
let rec loop i1 s1 i2 s2 d =
(* let c = cmp s1 s2 [@bs] in *)
if s1 < s2 then begin
(* A.setUnsafe dst d s1; *)
let i1 = i1 + 1 in
if i1 < src1r then
loop i1 (A.getUnsafe src i1) i2 s2 d
else
d
end
else if s1 = s2 then begin
A.setUnsafe dst d s1;
let i1 = i1 + 1 in
let i2 = i2 + 1 in
let d = d + 1 in
if i1 < src1r && i2 < src2r then
loop i1 (A.getUnsafe src i1) i2 (A.getUnsafe src2 i2) d
else d
end
else begin
(* A.setUnsafe dst d s2; *)
let i2 = i2 + 1 in
if i2 < src2r then
loop i1 s1 i2 (A.getUnsafe src2 i2) d
else
d
end
in
loop src1ofs
(A.getUnsafe src src1ofs)
src2ofs
(A.getUnsafe src2 src2ofs) dstofs
let diff (src : element array) src1ofs src1len src2 src2ofs src2len dst dstofs =
let src1r = src1ofs + src1len in
let src2r = src2ofs + src2len in
let rec loop i1 s1 i2 s2 d =
(* let c = cmp s1 s2 [@bs] in *)
if s1 < s2 then begin
A.setUnsafe dst d s1;
let d = d + 1 in
let i1 = i1 + 1 in
if i1 < src1r then
loop i1 (A.getUnsafe src i1) i2 s2 d
else
d
end
else if s1 = s2 then begin
let i1 = i1 + 1 in
let i2 = i2 + 1 in
if i1 < src1r && i2 < src2r then
loop i1 (A.getUnsafe src i1) i2 (A.getUnsafe src2 i2) d
else if i1 = src1r then
d
else
(A.blitUnsafe ~src ~srcOffset:i1 ~dst ~dstOffset:d ~len:(src1r - i1);
d + src1r - i1)
end
else begin
let i2 = i2 + 1 in
if i2 < src2r then
loop i1 s1 i2 (A.getUnsafe src2 i2) d
else
(A.blitUnsafe ~src ~srcOffset:i1 ~dst ~dstOffset:d ~len:(src1r - i1);
d + src1r - i1)
end
in
loop src1ofs
(A.getUnsafe src src1ofs)
src2ofs
(A.getUnsafe src2 src2ofs) dstofs
let insertionSort (src : element array) srcofs dst dstofs len =
for i = 0 to len - 1 do
let e = (A.getUnsafe src (srcofs + i)) in
let j = ref (dstofs + i - 1) in
while j.contents >= dstofs && A.getUnsafe dst j.contents > e do
A.setUnsafe dst (j.contents + 1) (A.getUnsafe dst j.contents);
j.contents <- j.contents - 1;
done;
A.setUnsafe dst (j.contents + 1) e;
done
let rec sortTo (src : element array) srcofs dst dstofs len =
if len <= cutoff then insertionSort src srcofs dst dstofs len
else begin
let l1 = len / 2 in
let l2 = len - l1 in
sortTo src (srcofs + l1) dst (dstofs + l1) l2 ;
sortTo src srcofs src (srcofs + l2) l1 ;
merge src (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs ;
end
let stableSortInPlace (a : element array) =
let l = A.length a in
if l <= cutoff then insertionSort a 0 a 0 l
else begin
let l1 = l / 2 in
let l2 = l - l1 in
let t = Belt_Array.makeUninitializedUnsafe l2 in
sortTo a l1 t 0 l2 ;
sortTo a 0 a l2 l1 ;
merge a l2 l1 t 0 l2 a 0 ;
end
let stableSort a = let b = A.copy a in stableSortInPlace b; b
let rec binarySearchAux (arr : element array) lo hi key =
let mid = (lo + hi)/2 in
let midVal = A.getUnsafe arr mid in
(* let c = cmp key midVal [@bs] in *)
if key = midVal then mid
else if key < midVal then (* a[lo] =< key < a[mid] <= a[hi] *)
if hi = mid then
if (A.getUnsafe arr lo) = key then lo
else - (hi + 1)
else binarySearchAux arr lo mid key
else (* a[lo] =< a[mid] < key <= a[hi] *)
if lo = mid then
if (A.getUnsafe arr hi) = key then hi
else - (hi + 1)
else binarySearchAux arr mid hi key
let binarySearch (sorted : element array) key : int =
let len = A.length sorted in
if len = 0 then -1
else
let lo = A.getUnsafe sorted 0 in
(* let c = cmp key lo [@bs] in *)
if key < lo then -1
else
let hi = A.getUnsafe sorted (len - 1) in
(* let c2 = cmp key hi [@bs]in *)
if key > hi then - (len + 1)
else binarySearchAux sorted 0 (len - 1) key