package res

Module implementing the reallocation strategy

Type of reallocation strategy

Type of reallocation strategy

Type of parameterized resizable arrays

length ra

• returns

  (virtual) length of resizable array ra excluding the reserved space.

lix ra

• returns

  (virtual) last index of resizable array ra excluding the reserved space.

real_length ra

• returns

  (real) length of resizable array ra including the reserved space.

real_lix ra

• returns

  (real) last index of resizable array ra including the reserved space.

get ra n

• returns

  the nth element of ra.

• raises Invalid_argument

  if index out of bounds.

get_copy ra n see documentation of module Weak in the standard distribution.

check ra n

• returns

  true if the nth cell of ra is full, false if it is empty. Note that even if check ar n returns true, a subsequent get ar n can return None.

set ra n sets the nth element of ra.

• raises Invalid_argument

  if index out of bounds.

sempty s

• returns

  an empty resizable array using strategy s.

empty () same as sempty but uses default strategy.

screate s n el

• returns

  a resizable array of length n using strategy s.

create n same as screate but uses default strategy.

sinit s n f

• returns

  an array of length n containing elements that were created by applying function f to the index, using strategy s.

init n f sames as sinit but uses default strategy.

get_strategy ra

• returns

  the reallocation strategy used by resizable array ra.

set_strategy ra s sets the reallocation strategy of resizable array ra to s, possibly causing an immediate reallocation.

put_strategy ra s sets the reallocation strategy of resizable array ra to s. Reallocation is only done at later changes in size.

enforce_strategy ra forces a reallocation if necessary (e.g. after a put_strategy.

copy ra

• returns

  a copy of resizable array ra. The two arrays share the same strategy!

sub ra ofs len

• returns

  a resizable subarray of length len from resizable array ra starting at offset ofs using the default strategy.

• raises Invalid_argument

  if parameters do not denote a correct subarray.

fill ra ofs len el fills resizable array ra from offset ofs with len elements el, possibly adding elements at the end. Raises Invalid_argument if offset ofs is larger than the length of the array.

blit ra1 ofs1 ra2 ofs2 len blits resizable array ra1 onto ra2 reading len elements from offset ofs1 and writing them to ofs2, possibly adding elements at the end of ra2. Raises Invalid_argument if ofs1 and len do not designate a valid subarray of ra1 or if ofs2 is larger than the length of ra2.

append ra1 ra2

• returns

  a new resizable array using the default strategy and copying ra1 and ra2 in this order onto it.

concat l

• returns

  a new resizable array using the default strategy and copying all resizable arrays in l in their respective order onto it.

add_one ra el adds element el to resizable array ra, possibly causing a reallocation.

remove_one ra removes the last element of resizable array ra, possibly causing a reallocation.

• raises Failure

  if the array is empty.

remove_n ra n removes the last n elements of resizable array ra, possibly causing a reallocation.

• raises Invalid_arg

  if there are not enough elements or n < 0.

remove_range ra ofs len removes len elements from resizable array ra starting at ofs and possibly causing a reallocation.

• raises Invalid_argument

  if range is invalid.

clear ra removes all elements from resizable array ra, possibly causing a reallocation.

swap ra n m swaps elements at indices n and m.

• raises Invalid_argument

  if any index is out of range.

swap_in_last ra n swaps the last element with the one at position n.

• raises Invalid_argument

  if index n is out of range.

to_std ra converts a resizable weak array to a standard one.

sof_std s ar converts a standard weak array to a resizable one, using strategy s.

of_std ar converts a standard weak array to a resizable one using the default strategy.

to_list ra converts resizable array ra to a list.

of_list l creates a resizable array using the default strategy and the elements in list l.

iter f ra applies the unit-function f to each element in resizable array ra.

iteri f ra applies the unit-function f to each index and element in resizable array ra.

fold_left f a ra left-folds values in resizable array ra using function f and start accumulator a.

fold_right f a ra right-folds values in resizable array ra using function f and start accumulator a.

for_all p ra

• returns

  true if all elements in resizable array ra satisfy the predicate p, false otherwise.

exists p ra

• returns

  true if at least one element in resizable array ra satisfies the predicate p, false otherwise.

mem el ra

• returns

  true if element el is logically equal to any element in resizable array ra, false otherwise.

memq el ra

• returns

  true if element el is physically equal to any element in resizable array ra, false otherwise.

pos el ra

• returns

  Some index if el is logically equal to the element at index in ra, None otherwise. index is the index of the first element that matches.

posq el ra

• returns

  Some index if el is physically equal to the element at index in ra, None otherwise. index is the index of the first element that matches.

find p ra

• returns

  the first element in resizable array ra that satisfies predicate p.

• raises Not_found

  if there is no such element.

find_index p ra pos

• returns

  the index of the first element that satisfies predicate p in resizable array ra, starting search at index pos.

• raises Not_found

  if there is no such element or if pos is larger than the highest index.

• raises Invalid_argument

  if pos is negative.

filter p ra

• returns

  a new resizable array by filtering out all elements in ra that satisfy predicate p using the same strategy as ra.

find_all p ra is the same as filter

filter_in_place p ra as filter, but filters in place.

partition p ra

• returns

  a pair of resizable arrays, the left part containing only elements of ra that satisfy predicate p, the right one only those that do not satisfy it. Both returned arrays are created using the strategy of ra.