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-<html xmlns="http://www.w3.org/1999/xhtml"><head><title>CCArray (containers.CCArray)</title><link rel="stylesheet" href="../../_odoc-theme/odoc.css"/><meta charset="utf-8"/><meta name="generator" content="odoc 2.2.0"/><meta name="viewport" content="width=device-width,initial-scale=1.0"/><script src="../../highlight.pack.js"></script><script>hljs.initHighlightingOnLoad();</script></head><body class="odoc"><nav class="odoc-nav"><a href="../index.html">Up</a> – <a href="../index.html">containers</a> &#x00BB; CCArray</nav><header class="odoc-preamble"><h1>Module <code><span>CCArray</span></code></h1><p>Array utils</p></header><nav class="odoc-toc"><ul><li><a href="#arrays">Arrays</a><ul><li><a href="#iterators">Iterators</a></li><li><a href="#iterators-on-two-arrays">Iterators on two arrays</a></li><li><a href="#array-scanning">Array scanning</a></li><li><a href="#arrays-of-pairs">Arrays of pairs</a></li><li><a href="#sorting">Sorting</a></li><li><a href="#arrays-and-sequences">Arrays and Sequences</a></li></ul></li><li><a href="#io">IO</a></li><li><a href="#generic-functions">Generic Functions</a><ul><li><a href="#infix-operators">Infix Operators</a></li></ul></li></ul></nav><div class="odoc-content"><div class="odoc-spec"><div class="spec type anchored" id="type-iter"><a href="#type-iter" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a iter</span></span><span> = <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Fast internal iterator.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.8</li></ul></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-gen"><a href="#type-gen" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a gen</span></span><span> = <span>unit <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-equal"><a href="#type-equal" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a equal</span></span><span> = <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-ord"><a href="#type-ord" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a ord</span></span><span> = <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-random_gen"><a href="#type-random_gen" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a random_gen</span></span><span> = <span><a href="../../ocaml/Stdlib/Random/State/index.html#type-t">Stdlib.Random.State.t</a> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-printer"><a href="#type-printer" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a printer</span></span><span> = <span><a href="../../ocaml/Stdlib/Format/index.html#type-formatter">Stdlib.Format.formatter</a> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div></div><h3 id="arrays"><a href="#arrays" class="anchor"></a>Arrays</h3><div class="odoc-spec"><div class="spec type anchored" id="type-t"><a href="#type-t" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a t</span></span><span> = <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p>An alias for the type of arrays.</p></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-length"><a href="#val-length" class="anchor"></a><code><span><span class="keyword">val</span> length : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p>Return the length (number of elements) of the given array.</p></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-get"><a href="#val-get" class="anchor"></a><code><span><span class="keyword">val</span> get : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>get a n</code> returns the element number <code>n</code> of array <code>a</code>. The first element has number 0. The last element has number <code>length a - 1</code>. You can also write <code>a.(n)</code> instead of <code>get a n</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n</code> is outside the range 0 to <code>(length a - 1)</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-set"><a href="#val-set" class="anchor"></a><code><span><span class="keyword">val</span> set : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>set a n x</code> modifies array <code>a</code> in place, replacing element number <code>n</code> with <code>x</code>. You can also write <code>a.(n) &lt;- x</code> instead of <code>set a n x</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n</code> is outside the range 0 to <code>length a - 1</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-make"><a href="#val-make" class="anchor"></a><code><span><span class="keyword">val</span> make : <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>make n x</code> returns a fresh array of length <code>n</code>, initialized with <code>x</code>. All the elements of this new array are initially physically equal to <code>x</code> (in the sense of the <code>==</code> predicate). Consequently, if <code>x</code> is mutable, it is shared among all elements of the array, and modifying <code>x</code> through one of the array entries will modify all other entries at the same time.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n &lt; 0</code> or <code>n &gt; Sys.max_array_length</code>. If the value of <code>x</code> is a floating-point number, then the maximum size is only <code>Sys.max_array_length / 2</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-create"><a href="#val-create" class="anchor"></a><code><span><span class="keyword">val</span> create : <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><ul class="at-tags"><li class="deprecated"><span class="at-tag">deprecated</span> <p><code>create</code> is an alias for <a href="#val-make"><code>make</code></a>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-create_float"><a href="#val-create_float" class="anchor"></a><code><span><span class="keyword">val</span> create_float : <span>int <span class="arrow">&#45;&gt;</span></span> <span>float array</span></span></code></div><div class="spec-doc"><p><code>create_float n</code> returns a fresh float array of length <code>n</code>, with uninitialized data.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-make_float"><a href="#val-make_float" class="anchor"></a><code><span><span class="keyword">val</span> make_float : <span>int <span class="arrow">&#45;&gt;</span></span> <span>float array</span></span></code></div><div class="spec-doc"><ul class="at-tags"><li class="deprecated"><span class="at-tag">deprecated</span> <p><code>make_float</code> is an alias for <a href="#val-create_float"><code>create_float</code></a>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-init"><a href="#val-init" class="anchor"></a><code><span><span class="keyword">val</span> init : <span>int <span class="arrow">&#45;&gt;</span></span> <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>init n f</code> returns a fresh array of length <code>n</code>, with element number <code>i</code> initialized to the result of <code>f i</code>. In other terms, <code>init n f</code> tabulates the results of <code>f</code> applied to the integers <code>0</code> to <code>n-1</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n &lt; 0</code> or <code>n &gt; Sys.max_array_length</code>. If the return type of <code>f</code> is <code>float</code>, then the maximum size is only <code>Sys.max_array_length / 2</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-make_matrix"><a href="#val-make_matrix" class="anchor"></a><code><span><span class="keyword">val</span> make_matrix : <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> array</span></span></code></div><div class="spec-doc"><p><code>make_matrix dimx dimy e</code> returns a two-dimensional array (an array of arrays) with first dimension <code>dimx</code> and second dimension <code>dimy</code>. All the elements of this new matrix are initially physically equal to <code>e</code>. The element (<code>x,y</code>) of a matrix <code>m</code> is accessed with the notation <code>m.(x).(y)</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>dimx</code> or <code>dimy</code> is negative or greater than <code>Sys</code>.max_array_length. If the value of <code>e</code> is a floating-point number, then the maximum size is only <code>Sys.max_array_length / 2</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-create_matrix"><a href="#val-create_matrix" class="anchor"></a><code><span><span class="keyword">val</span> create_matrix : <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> array</span></span></code></div><div class="spec-doc"><ul class="at-tags"><li class="deprecated"><span class="at-tag">deprecated</span> <p><code>create_matrix</code> is an alias for <a href="#val-make_matrix"><code>make_matrix</code></a>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-append"><a href="#val-append" class="anchor"></a><code><span><span class="keyword">val</span> append : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>append v1 v2</code> returns a fresh array containing the concatenation of the arrays <code>v1</code> and <code>v2</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>length v1 + length v2 &gt; Sys.max_array_length</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-concat"><a href="#val-concat" class="anchor"></a><code><span><span class="keyword">val</span> concat : <span><span><span><span class="type-var">'a</span> array</span> list</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p>Same as <a href="#val-append"><code>append</code></a>, but concatenates a list of arrays.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sub"><a href="#val-sub" class="anchor"></a><code><span><span class="keyword">val</span> sub : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>sub a pos len</code> returns a fresh array of length <code>len</code>, containing the elements number <code>pos</code> to <code>pos + len - 1</code> of array <code>a</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>pos</code> and <code>len</code> do not designate a valid subarray of <code>a</code>; that is, if <code>pos &lt; 0</code>, or <code>len &lt; 0</code>, or <code>pos + len &gt; length a</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-copy"><a href="#val-copy" class="anchor"></a><code><span><span class="keyword">val</span> copy : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>copy a</code> returns a copy of <code>a</code>, that is, a fresh array containing the same elements as <code>a</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fill"><a href="#val-fill" class="anchor"></a><code><span><span class="keyword">val</span> fill : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>fill a pos len x</code> modifies the array <code>a</code> in place, storing <code>x</code> in elements number <code>pos</code> to <code>pos + len - 1</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>pos</code> and <code>len</code> do not designate a valid subarray of <code>a</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-blit"><a href="#val-blit" class="anchor"></a><code><span><span class="keyword">val</span> blit : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>blit src src_pos dst dst_pos len</code> copies <code>len</code> elements from array <code>src</code>, starting at element number <code>src_pos</code>, to array <code>dst</code>, starting at element number <code>dst_pos</code>. It works correctly even if <code>src</code> and <code>dst</code> are the same array, and the source and destination chunks overlap.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>src_pos</code> and <code>len</code> do not designate a valid subarray of <code>src</code>, or if <code>dst_pos</code> and <code>len</code> do not designate a valid subarray of <code>dst</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-to_list"><a href="#val-to_list" class="anchor"></a><code><span><span class="keyword">val</span> to_list : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> list</span></span></code></div><div class="spec-doc"><p><code>to_list a</code> returns the list of all the elements of <code>a</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-of_list"><a href="#val-of_list" class="anchor"></a><code><span><span class="keyword">val</span> of_list : <span><span><span class="type-var">'a</span> list</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>of_list l</code> returns a fresh array containing the elements of <code>l</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if the length of <code>l</code> is greater than <code>Sys.max_array_length</code>.</p></li></ul></div></div><h4 id="iterators"><a href="#iterators" class="anchor"></a>Iterators</h4><div class="odoc-spec"><div class="spec value anchored" id="val-iter"><a href="#val-iter" class="anchor"></a><code><span><span class="keyword">val</span> iter : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>iter f a</code> applies function <code>f</code> in turn to all the elements of <code>a</code>. It is equivalent to <code>f a.(0); f a.(1); ...; f a.(length a - 1); ()</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-iteri"><a href="#val-iteri" class="anchor"></a><code><span><span class="keyword">val</span> iteri : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Same as <a href="#val-iter"><code>iter</code></a>, but the function is applied to the index of the element as first argument, and the element itself as second argument.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-map"><a href="#val-map" class="anchor"></a><code><span><span class="keyword">val</span> map : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> array</span></span></code></div><div class="spec-doc"><p><code>map f a</code> applies function <code>f</code> to all the elements of <code>a</code>, and builds an array with the results returned by <code>f</code>: <code>[| f a.(0); f a.(1); ...; f a.(length a - 1) |]</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mapi"><a href="#val-mapi" class="anchor"></a><code><span><span class="keyword">val</span> mapi : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> array</span></span></code></div><div class="spec-doc"><p>Same as <a href="#val-map"><code>map</code></a>, but the function is applied to the index of the element as first argument, and the element itself as second argument.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_left"><a href="#val-fold_left" class="anchor"></a><code><span><span class="keyword">val</span> fold_left : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_left f init a</code> computes <code>f (... (f (f init a.(0)) a.(1)) ...) a.(n-1)</code>, where <code>n</code> is the length of the array <code>a</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_left_map"><a href="#val-fold_left_map" class="anchor"></a><code><span><span class="keyword">val</span> fold_left_map : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span class="type-var">'c</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span><span class="type-var">'c</span> array</span></span></code></div><div class="spec-doc"><p><code>fold_left_map</code> is a combination of <a href="#val-fold_left"><code>fold_left</code></a> and <a href="#val-map"><code>map</code></a> that threads an accumulator through calls to <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_right"><a href="#val-fold_right" class="anchor"></a><code><span><span class="keyword">val</span> fold_right : <span><span>(<span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_right f a init</code> computes <code>f a.(0) (f a.(1) ( ... (f a.(n-1) init) ...))</code>, where <code>n</code> is the length of the array <code>a</code>.</p></div></div><h4 id="iterators-on-two-arrays"><a href="#iterators-on-two-arrays" class="anchor"></a>Iterators on two arrays</h4><div class="odoc-spec"><div class="spec value anchored" id="val-iter2"><a href="#val-iter2" class="anchor"></a><code><span><span class="keyword">val</span> iter2 : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>iter2 f a b</code> applies function <code>f</code> to all the elements of <code>a</code> and <code>b</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if the arrays are not the same size.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0 (4.05.0 in ArrayLabels)</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-map2"><a href="#val-map2" class="anchor"></a><code><span><span class="keyword">val</span> map2 : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'c</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'c</span> array</span></span></code></div><div class="spec-doc"><p><code>map2 f a b</code> applies function <code>f</code> to all the elements of <code>a</code> and <code>b</code>, and builds an array with the results returned by <code>f</code>: <code>[| f a.(0) b.(0); ...; f a.(length a - 1) b.(length b - 1)|]</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if the arrays are not the same size.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0 (4.05.0 in ArrayLabels)</li></ul></div></div><h4 id="array-scanning"><a href="#array-scanning" class="anchor"></a>Array scanning</h4><div class="odoc-spec"><div class="spec value anchored" id="val-for_all"><a href="#val-for_all" class="anchor"></a><code><span><span class="keyword">val</span> for_all : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>for_all f [|a1; ...; an|]</code> checks if all elements of the array satisfy the predicate <code>f</code>. That is, it returns <code>(f a1) &amp;&amp; (f a2) &amp;&amp; ... &amp;&amp; (f an)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-exists"><a href="#val-exists" class="anchor"></a><code><span><span class="keyword">val</span> exists : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>exists f [|a1; ...; an|]</code> checks if at least one element of the array satisfies the predicate <code>f</code>. That is, it returns <code>(f a1) || (f a2) || ... || (f an)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-memq"><a href="#val-memq" class="anchor"></a><code><span><span class="keyword">val</span> memq : <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p>Same as <a href="#val-mem"><code>mem</code></a>, but uses physical equality instead of structural equality to compare list elements.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_opt"><a href="#val-find_opt" class="anchor"></a><code><span><span class="keyword">val</span> find_opt : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>find_opt f a</code> returns the first element of the array <code>a</code> that satisfies the predicate <code>f</code>, or <code>None</code> if there is no value that satisfies <code>f</code> in the array <code>a</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><h4 id="arrays-of-pairs"><a href="#arrays-of-pairs" class="anchor"></a>Arrays of pairs</h4><div class="odoc-spec"><div class="spec value anchored" id="val-split"><a href="#val-split" class="anchor"></a><code><span><span class="keyword">val</span> split : <span><span><span>(<span class="type-var">'a</span> * <span class="type-var">'b</span>)</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span> * <span><span class="type-var">'b</span> array</span></span></code></div><div class="spec-doc"><p><code>split [|(a1,b1); ...; (an,bn)|]</code> is <code>([|a1; ...; an|], [|b1; ...; bn|])</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-combine"><a href="#val-combine" class="anchor"></a><code><span><span class="keyword">val</span> combine : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span>(<span class="type-var">'a</span> * <span class="type-var">'b</span>)</span> array</span></span></code></div><div class="spec-doc"><p><code>combine [|a1; ...; an|] [|b1; ...; bn|]</code> is <code>[|(a1,b1); ...; (an,bn)|]</code>. Raise <code>Invalid_argument</code> if the two arrays have different lengths.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><h4 id="sorting"><a href="#sorting" class="anchor"></a>Sorting</h4><div class="odoc-spec"><div class="spec value anchored" id="val-sort"><a href="#val-sort" class="anchor"></a><code><span><span class="keyword">val</span> sort : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Sort an array in increasing order according to a comparison function. The comparison function must return 0 if its arguments compare as equal, a positive integer if the first is greater, and a negative integer if the first is smaller (see below for a complete specification). For example, <a href="../../ocaml/Stdlib/index.html#val-compare"><code>Stdlib.compare</code></a> is a suitable comparison function. After calling <code>sort</code>, the array is sorted in place in increasing order. <code>sort</code> is guaranteed to run in constant heap space and (at most) logarithmic stack space.</p><p>The current implementation uses Heap Sort. It runs in constant stack space.</p><p>Specification of the comparison function: Let <code>a</code> be the array and <code>cmp</code> the comparison function. The following must be true for all <code>x</code>, <code>y</code>, <code>z</code> in <code>a</code> :</p><ul><li><code>cmp x y</code> &gt; 0 if and only if <code>cmp y x</code> &lt; 0</li><li>if <code>cmp x y</code> &gt;= 0 and <code>cmp y z</code> &gt;= 0 then <code>cmp x z</code> &gt;= 0</li></ul><p>When <code>sort</code> returns, <code>a</code> contains the same elements as before, reordered in such a way that for all i and j valid indices of <code>a</code> :</p><ul><li><code>cmp a.(i) a.(j)</code> &gt;= 0 if and only if i &gt;= j</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-stable_sort"><a href="#val-stable_sort" class="anchor"></a><code><span><span class="keyword">val</span> stable_sort : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Same as <a href="#val-sort"><code>sort</code></a>, but the sorting algorithm is stable (i.e. elements that compare equal are kept in their original order) and not guaranteed to run in constant heap space.</p><p>The current implementation uses Merge Sort. It uses a temporary array of length <code>n/2</code>, where <code>n</code> is the length of the array. It is usually faster than the current implementation of <a href="#val-sort"><code>sort</code></a>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fast_sort"><a href="#val-fast_sort" class="anchor"></a><code><span><span class="keyword">val</span> fast_sort : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Same as <a href="#val-sort"><code>sort</code></a> or <a href="#val-stable_sort"><code>stable_sort</code></a>, whichever is faster on typical input.</p></div></div><h4 id="arrays-and-sequences"><a href="#arrays-and-sequences" class="anchor"></a>Arrays and Sequences</h4><div class="odoc-spec"><div class="spec value anchored" id="val-to_seqi"><a href="#val-to_seqi" class="anchor"></a><code><span><span class="keyword">val</span> to_seqi : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span>(int * <span class="type-var">'a</span>)</span> <a href="../../ocaml/Stdlib/Seq/index.html#type-t">Stdlib.Seq.t</a></span></span></code></div><div class="spec-doc"><p>Iterate on the array, in increasing order, yielding indices along elements. Modifications of the array during iteration will be reflected in the sequence.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.07</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-of_seq"><a href="#val-of_seq" class="anchor"></a><code><span><span class="keyword">val</span> of_seq : <span><span><span class="type-var">'a</span> <a href="../../ocaml/Stdlib/Seq/index.html#type-t">Stdlib.Seq.t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p>Create an array from the generator</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.07</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-empty"><a href="#val-empty" class="anchor"></a><code><span><span class="keyword">val</span> empty : <span><span class="type-var">'a</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>empty</code> is the empty array, physically equal to <code>[||]</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-equal"><a href="#val-equal" class="anchor"></a><code><span><span class="keyword">val</span> equal : <span><span><span class="type-var">'a</span> <a href="#type-equal">equal</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <a href="#type-equal">equal</a></span></span></code></div><div class="spec-doc"><p><code>equal eq a1 a2</code> is <code>true</code> if the lengths of <code>a1</code> and <code>a2</code> are the same and if their corresponding elements test equal, using <code>eq</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-compare"><a href="#val-compare" class="anchor"></a><code><span><span class="keyword">val</span> compare : <span><span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <a href="#type-ord">ord</a></span></span></code></div><div class="spec-doc"><p><code>compare cmp a1 a2</code> compares arrays <code>a1</code> and <code>a2</code> using the function comparison <code>cmp</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-swap"><a href="#val-swap" class="anchor"></a><code><span><span class="keyword">val</span> swap : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>swap a i j</code> swaps elements at indices <code>i</code> and <code>j</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.4</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-get_safe"><a href="#val-get_safe" class="anchor"></a><code><span><span class="keyword">val</span> get_safe : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>get_safe a i</code> returns <code>Some a.(i)</code> if <code>i</code> is a valid index.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.18</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-map_inplace"><a href="#val-map_inplace" class="anchor"></a><code><span><span class="keyword">val</span> map_inplace : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>map_inplace f a</code> replace all elements of <code>a</code> by its image by <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.8</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mapi_inplace"><a href="#val-mapi_inplace" class="anchor"></a><code><span><span class="keyword">val</span> mapi_inplace : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>mapi_inplace f a</code> replace all elements of <code>a</code> by its image by <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.10</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold"><a href="#val-fold" class="anchor"></a><code><span><span class="keyword">val</span> fold : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold f init a</code> computes <code>f (… (f (f init a.(0)) a.(1)) …) a.(n-1)</code>, where <code>n</code> is the length of the array <code>a</code>. Same as <code>Array</code>.fold_left</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-foldi"><a href="#val-foldi" class="anchor"></a><code><span><span class="keyword">val</span> foldi : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>foldi f init a</code> is just like <a href="#val-fold"><code>fold</code></a>, but it also passes in the index of each element as the second argument to the folded function <code>f</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_while"><a href="#val-fold_while" class="anchor"></a><code><span><span class="keyword">val</span> fold_while : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span>[ `Stop <span>| `Continue</span> ]</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_while f init a</code> folds left on array <code>a</code> until a stop condition via <code>('a, `Stop)</code> is indicated by the accumulator.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.8</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_map"><a href="#val-fold_map" class="anchor"></a><code><span><span class="keyword">val</span> fold_map : <span><span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span><span class="type-var">'b</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>fold_map f init a</code> is a <code>fold_left</code>-like function, but it also maps the array to another array.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-scan_left"><a href="#val-scan_left" class="anchor"></a><code><span><span class="keyword">val</span> scan_left : <span><span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>scan_left f init a</code> returns the array <code> [|init; f init x0; f (f init a.(0)) a.(1); …|] </code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-reverse_in_place"><a href="#val-reverse_in_place" class="anchor"></a><code><span><span class="keyword">val</span> reverse_in_place : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>reverse_in_place a</code> reverses the array <code>a</code> in place.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sorted"><a href="#val-sorted" class="anchor"></a><code><span><span class="keyword">val</span> sorted : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>sorted f a</code> makes a copy of <code>a</code> and sorts it with <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_indices"><a href="#val-sort_indices" class="anchor"></a><code><span><span class="keyword">val</span> sort_indices : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_indices f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>sorted f a</code> appears in <code>a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; a.(i)) (sort_indices f a) = sorted f a</code>. <code>sort_indices</code> yields the inverse permutation of <a href="#val-sort_ranking"><code>sort_ranking</code></a>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_ranking"><a href="#val-sort_ranking" class="anchor"></a><code><span><span class="keyword">val</span> sort_ranking : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_ranking f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>a</code> appears in <code>sorted f a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; (sorted f a).(i)) (sort_ranking f a) = a</code>. <code>sort_ranking</code> yields the inverse permutation of <a href="#val-sort_indices"><code>sort_indices</code></a>.</p><p>In the absence of duplicate elements in <code>a</code>, we also have <code>lookup_exn a.(i) (sorted a) = (sorted_ranking a).(i)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mem"><a href="#val-mem" class="anchor"></a><code><span><span class="keyword">val</span> mem : <span>?eq:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>mem ~eq x a</code> return true if x is present in <code>a</code>. Linear time.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map"><a href="#val-find_map" class="anchor"></a><code><span><span class="keyword">val</span> find_map : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map f a</code> returns <code>Some y</code> if there is an element <code>x</code> such that <code>f x = Some y</code>. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map_i"><a href="#val-find_map_i" class="anchor"></a><code><span><span class="keyword">val</span> find_map_i : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map_i f a</code> is like <a href="#val-find_map"><code>find_map</code></a>, but the index of the element is also passed to the predicate function <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_idx"><a href="#val-find_idx" class="anchor"></a><code><span><span class="keyword">val</span> find_idx : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span>(int * <span class="type-var">'a</span>)</span> option</span></span></code></div><div class="spec-doc"><p><code>find_idx f a</code> returns <code>Some (i,x)</code> where <code>x</code> is the <code>i</code>-th element of <code>a</code>, and <code>f x</code> holds. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.3.4</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup"><a href="#val-lookup" class="anchor"></a><code><span><span class="keyword">val</span> lookup : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>lookup ~cmp key a</code> lookups the index of some key <code>key</code> in a sorted array <code>a</code>. Undefined behavior if the array <code>a</code> is not sorted wrt <code>~cmp</code>. Complexity: <code>O(log (n))</code> (dichotomic search).</p><ul class="at-tags"><li class="returns"><span class="at-tag">returns</span> <p><code>None</code> if the key <code>key</code> is not present, or <code>Some i</code> (<code>i</code> the index of the key) otherwise.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup_exn"><a href="#val-lookup_exn" class="anchor"></a><code><span><span class="keyword">val</span> lookup_exn : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>lookup_exn ~cmp key a</code> is like <a href="#val-lookup"><code>lookup</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Not_found</span> <p>if the key <code>key</code> is not present.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-bsearch"><a href="#val-bsearch" class="anchor"></a><code><span><span class="keyword">val</span> bsearch : 
+<html xmlns="http://www.w3.org/1999/xhtml"><head><title>CCArray (containers.CCArray)</title><link rel="stylesheet" href="../../_odoc-theme/odoc.css"/><meta charset="utf-8"/><meta name="generator" content="odoc 2.2.0"/><meta name="viewport" content="width=device-width,initial-scale=1.0"/><script src="../../highlight.pack.js"></script><script>hljs.initHighlightingOnLoad();</script></head><body class="odoc"><nav class="odoc-nav"><a href="../index.html">Up</a> – <a href="../index.html">containers</a> &#x00BB; CCArray</nav><header class="odoc-preamble"><h1>Module <code><span>CCArray</span></code></h1><p>Array utils</p></header><nav class="odoc-toc"><ul><li><a href="#arrays">Arrays</a><ul><li><a href="#iterators">Iterators</a></li><li><a href="#iterators-on-two-arrays">Iterators on two arrays</a></li><li><a href="#array-scanning">Array scanning</a></li><li><a href="#arrays-of-pairs">Arrays of pairs</a></li><li><a href="#sorting">Sorting</a></li><li><a href="#arrays-and-sequences">Arrays and Sequences</a></li></ul></li><li><a href="#io">IO</a></li><li><a href="#generic-functions">Generic Functions</a><ul><li><a href="#infix-operators">Infix Operators</a></li></ul></li></ul></nav><div class="odoc-content"><div class="odoc-spec"><div class="spec type anchored" id="type-iter"><a href="#type-iter" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a iter</span></span><span> = <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Fast internal iterator.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.8</li></ul></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-gen"><a href="#type-gen" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a gen</span></span><span> = <span>unit <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-equal"><a href="#type-equal" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a equal</span></span><span> = <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-ord"><a href="#type-ord" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a ord</span></span><span> = <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-random_gen"><a href="#type-random_gen" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a random_gen</span></span><span> = <span><a href="../../ocaml/Stdlib/Random/State/index.html#type-t">Stdlib.Random.State.t</a> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div></div><div class="odoc-spec"><div class="spec type anchored" id="type-printer"><a href="#type-printer" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a printer</span></span><span> = <span><a href="../../ocaml/Stdlib/Format/index.html#type-formatter">Stdlib.Format.formatter</a> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div></div><h3 id="arrays"><a href="#arrays" class="anchor"></a>Arrays</h3><div class="odoc-spec"><div class="spec type anchored" id="type-t"><a href="#type-t" class="anchor"></a><code><span><span class="keyword">type</span> <span>'a t</span></span><span> = <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p>An alias for the type of arrays.</p></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-length"><a href="#val-length" class="anchor"></a><code><span><span class="keyword">val</span> length : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p>Return the length (number of elements) of the given array.</p></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-get"><a href="#val-get" class="anchor"></a><code><span><span class="keyword">val</span> get : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>get a n</code> returns the element number <code>n</code> of array <code>a</code>. The first element has number 0. The last element has number <code>length a - 1</code>. You can also write <code>a.(n)</code> instead of <code>get a n</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n</code> is outside the range 0 to <code>(length a - 1)</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-set"><a href="#val-set" class="anchor"></a><code><span><span class="keyword">val</span> set : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>set a n x</code> modifies array <code>a</code> in place, replacing element number <code>n</code> with <code>x</code>. You can also write <code>a.(n) &lt;- x</code> instead of <code>set a n x</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n</code> is outside the range 0 to <code>length a - 1</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-make"><a href="#val-make" class="anchor"></a><code><span><span class="keyword">val</span> make : <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>make n x</code> returns a fresh array of length <code>n</code>, initialized with <code>x</code>. All the elements of this new array are initially physically equal to <code>x</code> (in the sense of the <code>==</code> predicate). Consequently, if <code>x</code> is mutable, it is shared among all elements of the array, and modifying <code>x</code> through one of the array entries will modify all other entries at the same time.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n &lt; 0</code> or <code>n &gt; Sys.max_array_length</code>. If the value of <code>x</code> is a floating-point number, then the maximum size is only <code>Sys.max_array_length / 2</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-create"><a href="#val-create" class="anchor"></a><code><span><span class="keyword">val</span> create : <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><ul class="at-tags"><li class="deprecated"><span class="at-tag">deprecated</span> <p><code>create</code> is an alias for <a href="#val-make"><code>make</code></a>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value external anchored" id="val-create_float"><a href="#val-create_float" class="anchor"></a><code><span><span class="keyword">val</span> create_float : <span>int <span class="arrow">&#45;&gt;</span></span> <span>float array</span></span></code></div><div class="spec-doc"><p><code>create_float n</code> returns a fresh float array of length <code>n</code>, with uninitialized data.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-make_float"><a href="#val-make_float" class="anchor"></a><code><span><span class="keyword">val</span> make_float : <span>int <span class="arrow">&#45;&gt;</span></span> <span>float array</span></span></code></div><div class="spec-doc"><ul class="at-tags"><li class="deprecated"><span class="at-tag">deprecated</span> <p><code>make_float</code> is an alias for <a href="#val-create_float"><code>create_float</code></a>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-init"><a href="#val-init" class="anchor"></a><code><span><span class="keyword">val</span> init : <span>int <span class="arrow">&#45;&gt;</span></span> <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>init n f</code> returns a fresh array of length <code>n</code>, with element number <code>i</code> initialized to the result of <code>f i</code>. In other terms, <code>init n f</code> tabulates the results of <code>f</code> applied to the integers <code>0</code> to <code>n-1</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>n &lt; 0</code> or <code>n &gt; Sys.max_array_length</code>. If the return type of <code>f</code> is <code>float</code>, then the maximum size is only <code>Sys.max_array_length / 2</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-make_matrix"><a href="#val-make_matrix" class="anchor"></a><code><span><span class="keyword">val</span> make_matrix : <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> array</span></span></code></div><div class="spec-doc"><p><code>make_matrix dimx dimy e</code> returns a two-dimensional array (an array of arrays) with first dimension <code>dimx</code> and second dimension <code>dimy</code>. All the elements of this new matrix are initially physically equal to <code>e</code>. The element (<code>x,y</code>) of a matrix <code>m</code> is accessed with the notation <code>m.(x).(y)</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>dimx</code> or <code>dimy</code> is negative or greater than <code>Sys</code>.max_array_length. If the value of <code>e</code> is a floating-point number, then the maximum size is only <code>Sys.max_array_length / 2</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-create_matrix"><a href="#val-create_matrix" class="anchor"></a><code><span><span class="keyword">val</span> create_matrix : <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> array</span></span></code></div><div class="spec-doc"><ul class="at-tags"><li class="deprecated"><span class="at-tag">deprecated</span> <p><code>create_matrix</code> is an alias for <a href="#val-make_matrix"><code>make_matrix</code></a>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-append"><a href="#val-append" class="anchor"></a><code><span><span class="keyword">val</span> append : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>append v1 v2</code> returns a fresh array containing the concatenation of the arrays <code>v1</code> and <code>v2</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>length v1 + length v2 &gt; Sys.max_array_length</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-concat"><a href="#val-concat" class="anchor"></a><code><span><span class="keyword">val</span> concat : <span><span><span><span class="type-var">'a</span> array</span> list</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p>Same as <a href="#val-append"><code>append</code></a>, but concatenates a list of arrays.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sub"><a href="#val-sub" class="anchor"></a><code><span><span class="keyword">val</span> sub : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>sub a pos len</code> returns a fresh array of length <code>len</code>, containing the elements number <code>pos</code> to <code>pos + len - 1</code> of array <code>a</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>pos</code> and <code>len</code> do not designate a valid subarray of <code>a</code>; that is, if <code>pos &lt; 0</code>, or <code>len &lt; 0</code>, or <code>pos + len &gt; length a</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-copy"><a href="#val-copy" class="anchor"></a><code><span><span class="keyword">val</span> copy : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>copy a</code> returns a copy of <code>a</code>, that is, a fresh array containing the same elements as <code>a</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fill"><a href="#val-fill" class="anchor"></a><code><span><span class="keyword">val</span> fill : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>fill a pos len x</code> modifies the array <code>a</code> in place, storing <code>x</code> in elements number <code>pos</code> to <code>pos + len - 1</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>pos</code> and <code>len</code> do not designate a valid subarray of <code>a</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-blit"><a href="#val-blit" class="anchor"></a><code><span><span class="keyword">val</span> blit : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>blit src src_pos dst dst_pos len</code> copies <code>len</code> elements from array <code>src</code>, starting at element number <code>src_pos</code>, to array <code>dst</code>, starting at element number <code>dst_pos</code>. It works correctly even if <code>src</code> and <code>dst</code> are the same array, and the source and destination chunks overlap.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>src_pos</code> and <code>len</code> do not designate a valid subarray of <code>src</code>, or if <code>dst_pos</code> and <code>len</code> do not designate a valid subarray of <code>dst</code>.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-to_list"><a href="#val-to_list" class="anchor"></a><code><span><span class="keyword">val</span> to_list : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> list</span></span></code></div><div class="spec-doc"><p><code>to_list a</code> returns the list of all the elements of <code>a</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-of_list"><a href="#val-of_list" class="anchor"></a><code><span><span class="keyword">val</span> of_list : <span><span><span class="type-var">'a</span> list</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>of_list l</code> returns a fresh array containing the elements of <code>l</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if the length of <code>l</code> is greater than <code>Sys.max_array_length</code>.</p></li></ul></div></div><h4 id="iterators"><a href="#iterators" class="anchor"></a>Iterators</h4><div class="odoc-spec"><div class="spec value anchored" id="val-iter"><a href="#val-iter" class="anchor"></a><code><span><span class="keyword">val</span> iter : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>iter f a</code> applies function <code>f</code> in turn to all the elements of <code>a</code>. It is equivalent to <code>f a.(0); f a.(1); ...; f a.(length a - 1); ()</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-iteri"><a href="#val-iteri" class="anchor"></a><code><span><span class="keyword">val</span> iteri : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Same as <a href="#val-iter"><code>iter</code></a>, but the function is applied to the index of the element as first argument, and the element itself as second argument.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-map"><a href="#val-map" class="anchor"></a><code><span><span class="keyword">val</span> map : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> array</span></span></code></div><div class="spec-doc"><p><code>map f a</code> applies function <code>f</code> to all the elements of <code>a</code>, and builds an array with the results returned by <code>f</code>: <code>[| f a.(0); f a.(1); ...; f a.(length a - 1) |]</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mapi"><a href="#val-mapi" class="anchor"></a><code><span><span class="keyword">val</span> mapi : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> array</span></span></code></div><div class="spec-doc"><p>Same as <a href="#val-map"><code>map</code></a>, but the function is applied to the index of the element as first argument, and the element itself as second argument.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_left"><a href="#val-fold_left" class="anchor"></a><code><span><span class="keyword">val</span> fold_left : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_left f init a</code> computes <code>f (... (f (f init a.(0)) a.(1)) ...) a.(n-1)</code>, where <code>n</code> is the length of the array <code>a</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_left_map"><a href="#val-fold_left_map" class="anchor"></a><code><span><span class="keyword">val</span> fold_left_map : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span class="type-var">'c</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span><span class="type-var">'c</span> array</span></span></code></div><div class="spec-doc"><p><code>fold_left_map</code> is a combination of <a href="#val-fold_left"><code>fold_left</code></a> and <a href="#val-map"><code>map</code></a> that threads an accumulator through calls to <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_right"><a href="#val-fold_right" class="anchor"></a><code><span><span class="keyword">val</span> fold_right : <span><span>(<span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_right f a init</code> computes <code>f a.(0) (f a.(1) ( ... (f a.(n-1) init) ...))</code>, where <code>n</code> is the length of the array <code>a</code>.</p></div></div><h4 id="iterators-on-two-arrays"><a href="#iterators-on-two-arrays" class="anchor"></a>Iterators on two arrays</h4><div class="odoc-spec"><div class="spec value anchored" id="val-iter2"><a href="#val-iter2" class="anchor"></a><code><span><span class="keyword">val</span> iter2 : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> unit)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>iter2 f a b</code> applies function <code>f</code> to all the elements of <code>a</code> and <code>b</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if the arrays are not the same size.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0 (4.05.0 in ArrayLabels)</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-map2"><a href="#val-map2" class="anchor"></a><code><span><span class="keyword">val</span> map2 : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'c</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'c</span> array</span></span></code></div><div class="spec-doc"><p><code>map2 f a b</code> applies function <code>f</code> to all the elements of <code>a</code> and <code>b</code>, and builds an array with the results returned by <code>f</code>: <code>[| f a.(0) b.(0); ...; f a.(length a - 1) b.(length b - 1)|]</code>.</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if the arrays are not the same size.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0 (4.05.0 in ArrayLabels)</li></ul></div></div><h4 id="array-scanning"><a href="#array-scanning" class="anchor"></a>Array scanning</h4><div class="odoc-spec"><div class="spec value anchored" id="val-for_all"><a href="#val-for_all" class="anchor"></a><code><span><span class="keyword">val</span> for_all : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>for_all f [|a1; ...; an|]</code> checks if all elements of the array satisfy the predicate <code>f</code>. That is, it returns <code>(f a1) &amp;&amp; (f a2) &amp;&amp; ... &amp;&amp; (f an)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-exists"><a href="#val-exists" class="anchor"></a><code><span><span class="keyword">val</span> exists : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>exists f [|a1; ...; an|]</code> checks if at least one element of the array satisfies the predicate <code>f</code>. That is, it returns <code>(f a1) || (f a2) || ... || (f an)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-memq"><a href="#val-memq" class="anchor"></a><code><span><span class="keyword">val</span> memq : <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p>Same as <a href="#val-mem"><code>mem</code></a>, but uses physical equality instead of structural equality to compare list elements.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.03.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_opt"><a href="#val-find_opt" class="anchor"></a><code><span><span class="keyword">val</span> find_opt : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>find_opt f a</code> returns the first element of the array <code>a</code> that satisfies the predicate <code>f</code>, or <code>None</code> if there is no value that satisfies <code>f</code> in the array <code>a</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><h4 id="arrays-of-pairs"><a href="#arrays-of-pairs" class="anchor"></a>Arrays of pairs</h4><div class="odoc-spec"><div class="spec value anchored" id="val-split"><a href="#val-split" class="anchor"></a><code><span><span class="keyword">val</span> split : <span><span><span>(<span class="type-var">'a</span> * <span class="type-var">'b</span>)</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span> * <span><span class="type-var">'b</span> array</span></span></code></div><div class="spec-doc"><p><code>split [|(a1,b1); ...; (an,bn)|]</code> is <code>([|a1; ...; an|], [|b1; ...; bn|])</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-combine"><a href="#val-combine" class="anchor"></a><code><span><span class="keyword">val</span> combine : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span>(<span class="type-var">'a</span> * <span class="type-var">'b</span>)</span> array</span></span></code></div><div class="spec-doc"><p><code>combine [|a1; ...; an|] [|b1; ...; bn|]</code> is <code>[|(a1,b1); ...; (an,bn)|]</code>. Raise <code>Invalid_argument</code> if the two arrays have different lengths.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.13.0</li></ul></div></div><h4 id="sorting"><a href="#sorting" class="anchor"></a>Sorting</h4><div class="odoc-spec"><div class="spec value anchored" id="val-sort"><a href="#val-sort" class="anchor"></a><code><span><span class="keyword">val</span> sort : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Sort an array in increasing order according to a comparison function. The comparison function must return 0 if its arguments compare as equal, a positive integer if the first is greater, and a negative integer if the first is smaller (see below for a complete specification). For example, <a href="../../ocaml/Stdlib/index.html#val-compare"><code>Stdlib.compare</code></a> is a suitable comparison function. After calling <code>sort</code>, the array is sorted in place in increasing order. <code>sort</code> is guaranteed to run in constant heap space and (at most) logarithmic stack space.</p><p>The current implementation uses Heap Sort. It runs in constant stack space.</p><p>Specification of the comparison function: Let <code>a</code> be the array and <code>cmp</code> the comparison function. The following must be true for all <code>x</code>, <code>y</code>, <code>z</code> in <code>a</code> :</p><ul><li><code>cmp x y</code> &gt; 0 if and only if <code>cmp y x</code> &lt; 0</li><li>if <code>cmp x y</code> &gt;= 0 and <code>cmp y z</code> &gt;= 0 then <code>cmp x z</code> &gt;= 0</li></ul><p>When <code>sort</code> returns, <code>a</code> contains the same elements as before, reordered in such a way that for all i and j valid indices of <code>a</code> :</p><ul><li><code>cmp a.(i) a.(j)</code> &gt;= 0 if and only if i &gt;= j</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-stable_sort"><a href="#val-stable_sort" class="anchor"></a><code><span><span class="keyword">val</span> stable_sort : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Same as <a href="#val-sort"><code>sort</code></a>, but the sorting algorithm is stable (i.e. elements that compare equal are kept in their original order) and not guaranteed to run in constant heap space.</p><p>The current implementation uses Merge Sort. It uses a temporary array of length <code>n/2</code>, where <code>n</code> is the length of the array. It is usually faster than the current implementation of <a href="#val-sort"><code>sort</code></a>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fast_sort"><a href="#val-fast_sort" class="anchor"></a><code><span><span class="keyword">val</span> fast_sort : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p>Same as <a href="#val-sort"><code>sort</code></a> or <a href="#val-stable_sort"><code>stable_sort</code></a>, whichever is faster on typical input.</p></div></div><h4 id="arrays-and-sequences"><a href="#arrays-and-sequences" class="anchor"></a>Arrays and Sequences</h4><div class="odoc-spec"><div class="spec value anchored" id="val-to_seqi"><a href="#val-to_seqi" class="anchor"></a><code><span><span class="keyword">val</span> to_seqi : <span><span><span class="type-var">'a</span> array</span> <span class="arrow">&#45;&gt;</span></span> <span><span>(int * <span class="type-var">'a</span>)</span> <a href="../../ocaml/Stdlib/Seq/index.html#type-t">Stdlib.Seq.t</a></span></span></code></div><div class="spec-doc"><p>Iterate on the array, in increasing order, yielding indices along elements. Modifications of the array during iteration will be reflected in the sequence.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.07</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-of_seq"><a href="#val-of_seq" class="anchor"></a><code><span><span class="keyword">val</span> of_seq : <span><span><span class="type-var">'a</span> <a href="../../ocaml/Stdlib/Seq/index.html#type-t">Stdlib.Seq.t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p>Create an array from the generator</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 4.07</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-empty"><a href="#val-empty" class="anchor"></a><code><span><span class="keyword">val</span> empty : <span><span class="type-var">'a</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>empty</code> is the empty array, physically equal to <code>[||]</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-equal"><a href="#val-equal" class="anchor"></a><code><span><span class="keyword">val</span> equal : <span><span><span class="type-var">'a</span> <a href="#type-equal">equal</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <a href="#type-equal">equal</a></span></span></code></div><div class="spec-doc"><p><code>equal eq a1 a2</code> is <code>true</code> if the lengths of <code>a1</code> and <code>a2</code> are the same and if their corresponding elements test equal, using <code>eq</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-compare"><a href="#val-compare" class="anchor"></a><code><span><span class="keyword">val</span> compare : <span><span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <a href="#type-ord">ord</a></span></span></code></div><div class="spec-doc"><p><code>compare cmp a1 a2</code> compares arrays <code>a1</code> and <code>a2</code> using the function comparison <code>cmp</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-swap"><a href="#val-swap" class="anchor"></a><code><span><span class="keyword">val</span> swap : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>swap a i j</code> swaps elements at indices <code>i</code> and <code>j</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.4</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-get_safe"><a href="#val-get_safe" class="anchor"></a><code><span><span class="keyword">val</span> get_safe : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>get_safe a i</code> returns <code>Some a.(i)</code> if <code>i</code> is a valid index.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.18</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-map_inplace"><a href="#val-map_inplace" class="anchor"></a><code><span><span class="keyword">val</span> map_inplace : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>map_inplace f a</code> replace all elements of <code>a</code> by its image by <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.8</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mapi_inplace"><a href="#val-mapi_inplace" class="anchor"></a><code><span><span class="keyword">val</span> mapi_inplace : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>mapi_inplace f a</code> replace all elements of <code>a</code> by its image by <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.10</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold"><a href="#val-fold" class="anchor"></a><code><span><span class="keyword">val</span> fold : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold f init a</code> computes <code>f (… (f (f init a.(0)) a.(1)) …) a.(n-1)</code>, where <code>n</code> is the length of the array <code>a</code>. Same as <code>Array</code>.fold_left</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-foldi"><a href="#val-foldi" class="anchor"></a><code><span><span class="keyword">val</span> foldi : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>foldi f init a</code> is just like <a href="#val-fold"><code>fold</code></a>, but it also passes in the index of each element as the second argument to the folded function <code>f</code>.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_while"><a href="#val-fold_while" class="anchor"></a><code><span><span class="keyword">val</span> fold_while : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span>[ `Stop <span>| `Continue</span> ]</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_while f init a</code> folds left on array <code>a</code> until a stop condition via <code>('a, `Stop)</code> is indicated by the accumulator.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.8</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_map"><a href="#val-fold_map" class="anchor"></a><code><span><span class="keyword">val</span> fold_map : <span><span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span><span class="type-var">'b</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>fold_map f init a</code> is a <code>fold_left</code>-like function, but it also maps the array to another array.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-scan_left"><a href="#val-scan_left" class="anchor"></a><code><span><span class="keyword">val</span> scan_left : <span><span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>scan_left f init a</code> returns the array <code> [|init; f init x0; f (f init a.(0)) a.(1); …|] </code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-reverse_in_place"><a href="#val-reverse_in_place" class="anchor"></a><code><span><span class="keyword">val</span> reverse_in_place : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>reverse_in_place a</code> reverses the array <code>a</code> in place.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sorted"><a href="#val-sorted" class="anchor"></a><code><span><span class="keyword">val</span> sorted : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>sorted f a</code> makes a copy of <code>a</code> and sorts it with <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_indices"><a href="#val-sort_indices" class="anchor"></a><code><span><span class="keyword">val</span> sort_indices : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_indices f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>sorted f a</code> appears in <code>a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; a.(i)) (sort_indices f a) = sorted f a</code>. <code>sort_indices</code> yields the inverse permutation of <a href="#val-sort_ranking"><code>sort_ranking</code></a>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_ranking"><a href="#val-sort_ranking" class="anchor"></a><code><span><span class="keyword">val</span> sort_ranking : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_ranking f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>a</code> appears in <code>sorted f a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; (sorted f a).(i)) (sort_ranking f a) = a</code>. <code>sort_ranking</code> yields the inverse permutation of <a href="#val-sort_indices"><code>sort_indices</code></a>.</p><p>In the absence of duplicate elements in <code>a</code>, we also have <code>lookup_exn a.(i) (sorted a) = (sorted_ranking a).(i)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mem"><a href="#val-mem" class="anchor"></a><code><span><span class="keyword">val</span> mem : <span>?eq:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>mem ~eq x a</code> return true if x is present in <code>a</code>. Linear time.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map"><a href="#val-find_map" class="anchor"></a><code><span><span class="keyword">val</span> find_map : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map f a</code> returns <code>Some y</code> if there is an element <code>x</code> such that <code>f x = Some y</code>. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map_i"><a href="#val-find_map_i" class="anchor"></a><code><span><span class="keyword">val</span> find_map_i : <span><span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map_i f a</code> is like <a href="#val-find_map"><code>find_map</code></a>, but the index of the element is also passed to the predicate function <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_idx"><a href="#val-find_idx" class="anchor"></a><code><span><span class="keyword">val</span> find_idx : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span>(int * <span class="type-var">'a</span>)</span> option</span></span></code></div><div class="spec-doc"><p><code>find_idx f a</code> returns <code>Some (i,x)</code> where <code>x</code> is the <code>i</code>-th element of <code>a</code>, and <code>f x</code> holds. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.3.4</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-max"><a href="#val-max" class="anchor"></a><code><span><span class="keyword">val</span> max : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>max cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some e</code> where <code>e</code> is a maximum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-max_exn"><a href="#val-max_exn" class="anchor"></a><code><span><span class="keyword">val</span> max_exn : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>max_exn cmp a</code> is like <a href="#val-max"><code>max</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmax"><a href="#val-argmax" class="anchor"></a><code><span><span class="keyword">val</span> argmax : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>argmax cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some i</code> where <code>i</code> is the index of a maximum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmax_exn"><a href="#val-argmax_exn" class="anchor"></a><code><span><span class="keyword">val</span> argmax_exn : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>argmax_exn cmp a</code> is like <a href="#val-argmax"><code>argmax</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-min"><a href="#val-min" class="anchor"></a><code><span><span class="keyword">val</span> min : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>min cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some e</code> where <code>e</code> is a minimum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-min_exn"><a href="#val-min_exn" class="anchor"></a><code><span><span class="keyword">val</span> min_exn : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>min_exn cmp a</code> is like <a href="#val-min"><code>min</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmin"><a href="#val-argmin" class="anchor"></a><code><span><span class="keyword">val</span> argmin : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>argmin cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some i</code> where <code>i</code> is the index of a minimum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmin_exn"><a href="#val-argmin_exn" class="anchor"></a><code><span><span class="keyword">val</span> argmin_exn : <span><span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>argmin_exn cmp a</code> is like <a href="#val-argmin"><code>argmin</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup"><a href="#val-lookup" class="anchor"></a><code><span><span class="keyword">val</span> lookup : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>lookup ~cmp key a</code> lookups the index of some key <code>key</code> in a sorted array <code>a</code>. Undefined behavior if the array <code>a</code> is not sorted wrt <code>~cmp</code>. Complexity: <code>O(log (n))</code> (dichotomic search).</p><ul class="at-tags"><li class="returns"><span class="at-tag">returns</span> <p><code>None</code> if the key <code>key</code> is not present, or <code>Some i</code> (<code>i</code> the index of the key) otherwise.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup_exn"><a href="#val-lookup_exn" class="anchor"></a><code><span><span class="keyword">val</span> lookup_exn : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>lookup_exn ~cmp key a</code> is like <a href="#val-lookup"><code>lookup</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Not_found</span> <p>if the key <code>key</code> is not present.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-bsearch"><a href="#val-bsearch" class="anchor"></a><code><span><span class="keyword">val</span> bsearch : 
   <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span>
   <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span>
   <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span>
diff --git a/dev/containers/CCArrayLabels/index.html b/dev/containers/CCArrayLabels/index.html
index b72a3c18..b38b4f78 100644
--- a/dev/containers/CCArrayLabels/index.html
+++ b/dev/containers/CCArrayLabels/index.html
@@ -13,7 +13,7 @@
   <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span> * <span>[ `Stop <span>| `Continue</span> ]</span>)</span> <span class="arrow">&#45;&gt;</span></span>
   <span>init:<span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span>
   <span><span><span class="type-var">'b</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span>
-  <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_while ~f ~init a</code> folds left on array <code>a</code> until a stop condition via <code>('a, `Stop)</code> is indicated by the accumulator.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.8</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_map"><a href="#val-fold_map" class="anchor"></a><code><span><span class="keyword">val</span> fold_map : <span>f:<span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span>init:<span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span><span class="type-var">'b</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>fold_map ~f ~init a</code> is a <code>fold_left</code>-like function, but it also maps the array to another array.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-scan_left"><a href="#val-scan_left" class="anchor"></a><code><span><span class="keyword">val</span> scan_left : <span>f:<span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span>init:<span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>scan_left ~f ~init a</code> returns the array <code> [|init; f init x0; f (f init a.(0)) a.(1); …|] </code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-reverse_in_place"><a href="#val-reverse_in_place" class="anchor"></a><code><span><span class="keyword">val</span> reverse_in_place : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>reverse_in_place a</code> reverses the array <code>a</code> in place.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sorted"><a href="#val-sorted" class="anchor"></a><code><span><span class="keyword">val</span> sorted : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>sorted ~f a</code> makes a copy of <code>a</code> and sorts it with <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_indices"><a href="#val-sort_indices" class="anchor"></a><code><span><span class="keyword">val</span> sort_indices : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_indices ~f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>sorted f a</code> appears in <code>a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; a.(i)) (sort_indices f a) = sorted f a</code>. <code>sort_indices</code> yields the inverse permutation of <a href="#val-sort_ranking"><code>sort_ranking</code></a>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_ranking"><a href="#val-sort_ranking" class="anchor"></a><code><span><span class="keyword">val</span> sort_ranking : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_ranking ~f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>a</code> appears in <code>sorted f a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; (sorted f a).(i)) (sort_ranking f a) = a</code>. <code>sort_ranking</code> yields the inverse permutation of <a href="#val-sort_indices"><code>sort_indices</code></a>.</p><p>In the absence of duplicate elements in <code>a</code>, we also have <code>lookup_exn a.(i) (sorted a) = (sorted_ranking a).(i)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mem"><a href="#val-mem" class="anchor"></a><code><span><span class="keyword">val</span> mem : <span>?eq:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>mem ~eq x a</code> return true if x is present in <code>a</code>. Linear time.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map"><a href="#val-find_map" class="anchor"></a><code><span><span class="keyword">val</span> find_map : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map ~f a</code> returns <code>Some y</code> if there is an element <code>x</code> such that <code>f x = Some y</code>. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map_i"><a href="#val-find_map_i" class="anchor"></a><code><span><span class="keyword">val</span> find_map_i : <span>f:<span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map_i ~f a</code> is like <a href="#val-find_map"><code>find_map</code></a>, but the index of the element is also passed to the predicate function <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_idx"><a href="#val-find_idx" class="anchor"></a><code><span><span class="keyword">val</span> find_idx : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span>(int * <span class="type-var">'a</span>)</span> option</span></span></code></div><div class="spec-doc"><p><code>find_idx ~f a</code> returns <code>Some (i,x)</code> where <code>x</code> is the <code>i</code>-th element of <code>a</code>, and <code>f x</code> holds. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.3.4</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup"><a href="#val-lookup" class="anchor"></a><code><span><span class="keyword">val</span> lookup : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span>key:<span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>lookup ~cmp ~key a</code> lookups the index of some key <code>key</code> in a sorted array <code>a</code>. Undefined behavior if the array <code>a</code> is not sorted wrt <code>cmp</code>. Complexity: <code>O(log (n))</code> (dichotomic search).</p><ul class="at-tags"><li class="returns"><span class="at-tag">returns</span> <p><code>None</code> if the key <code>key</code> is not present, or <code>Some i</code> (<code>i</code> the index of the key) otherwise.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup_exn"><a href="#val-lookup_exn" class="anchor"></a><code><span><span class="keyword">val</span> lookup_exn : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span>key:<span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>lookup_exn ~cmp ~key a</code> is like <a href="#val-lookup"><code>lookup</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Not_found</span> <p>if the key <code>key</code> is not present.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-bsearch"><a href="#val-bsearch" class="anchor"></a><code><span><span class="keyword">val</span> bsearch : 
+  <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>fold_while ~f ~init a</code> folds left on array <code>a</code> until a stop condition via <code>('a, `Stop)</code> is indicated by the accumulator.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.8</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-fold_map"><a href="#val-fold_map" class="anchor"></a><code><span><span class="keyword">val</span> fold_map : <span>f:<span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span class="type-var">'b</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span>init:<span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span> * <span><span class="type-var">'b</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>fold_map ~f ~init a</code> is a <code>fold_left</code>-like function, but it also maps the array to another array.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-scan_left"><a href="#val-scan_left" class="anchor"></a><code><span><span class="keyword">val</span> scan_left : <span>f:<span>(<span><span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'acc</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span>init:<span class="type-var">'acc</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'acc</span> <a href="#type-t">t</a></span></span></code></div><div class="spec-doc"><p><code>scan_left ~f ~init a</code> returns the array <code> [|init; f init x0; f (f init a.(0)) a.(1); …|] </code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.2, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-reverse_in_place"><a href="#val-reverse_in_place" class="anchor"></a><code><span><span class="keyword">val</span> reverse_in_place : <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> unit</span></code></div><div class="spec-doc"><p><code>reverse_in_place a</code> reverses the array <code>a</code> in place.</p></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sorted"><a href="#val-sorted" class="anchor"></a><code><span><span class="keyword">val</span> sorted : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> array</span></span></code></div><div class="spec-doc"><p><code>sorted ~f a</code> makes a copy of <code>a</code> and sorts it with <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_indices"><a href="#val-sort_indices" class="anchor"></a><code><span><span class="keyword">val</span> sort_indices : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_indices ~f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>sorted f a</code> appears in <code>a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; a.(i)) (sort_indices f a) = sorted f a</code>. <code>sort_indices</code> yields the inverse permutation of <a href="#val-sort_ranking"><code>sort_ranking</code></a>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-sort_ranking"><a href="#val-sort_ranking" class="anchor"></a><code><span><span class="keyword">val</span> sort_ranking : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int array</span></span></code></div><div class="spec-doc"><p><code>sort_ranking ~f a</code> returns a new array <code>b</code>, with the same length as <code>a</code>, such that <code>b.(i)</code> is the index at which the <code>i</code>-th element of <code>a</code> appears in <code>sorted f a</code>. <code>a</code> is not modified.</p><p>In other words, <code>map (fun i -&gt; (sorted f a).(i)) (sort_ranking f a) = a</code>. <code>sort_ranking</code> yields the inverse permutation of <a href="#val-sort_indices"><code>sort_indices</code></a>.</p><p>In the absence of duplicate elements in <code>a</code>, we also have <code>lookup_exn a.(i) (sorted a) = (sorted_ranking a).(i)</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-mem"><a href="#val-mem" class="anchor"></a><code><span><span class="keyword">val</span> mem : <span>?eq:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> bool</span></code></div><div class="spec-doc"><p><code>mem ~eq x a</code> return true if x is present in <code>a</code>. Linear time.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 3.0</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map"><a href="#val-find_map" class="anchor"></a><code><span><span class="keyword">val</span> find_map : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map ~f a</code> returns <code>Some y</code> if there is an element <code>x</code> such that <code>f x = Some y</code>. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_map_i"><a href="#val-find_map_i" class="anchor"></a><code><span><span class="keyword">val</span> find_map_i : <span>f:<span>(<span>int <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span>)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'b</span> option</span></span></code></div><div class="spec-doc"><p><code>find_map_i ~f a</code> is like <a href="#val-find_map"><code>find_map</code></a>, but the index of the element is also passed to the predicate function <code>f</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 1.3, but only</li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 2.1 with labels</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-find_idx"><a href="#val-find_idx" class="anchor"></a><code><span><span class="keyword">val</span> find_idx : <span>f:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> bool)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span>(int * <span class="type-var">'a</span>)</span> option</span></span></code></div><div class="spec-doc"><p><code>find_idx ~f a</code> returns <code>Some (i,x)</code> where <code>x</code> is the <code>i</code>-th element of <code>a</code>, and <code>f x</code> holds. Otherwise returns <code>None</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> 0.3.4</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-max"><a href="#val-max" class="anchor"></a><code><span><span class="keyword">val</span> max : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>max ~cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some e</code> where <code>e</code> is a maximum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-max_exn"><a href="#val-max_exn" class="anchor"></a><code><span><span class="keyword">val</span> max_exn : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>max_exn ~cmp a</code> is like <a href="#val-max"><code>max</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmax"><a href="#val-argmax" class="anchor"></a><code><span><span class="keyword">val</span> argmax : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>argmax ~cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some i</code> where <code>i</code> is the index of a maximum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmax_exn"><a href="#val-argmax_exn" class="anchor"></a><code><span><span class="keyword">val</span> argmax_exn : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>argmax_exn ~cmp a</code> is like <a href="#val-argmax"><code>argmax</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-min"><a href="#val-min" class="anchor"></a><code><span><span class="keyword">val</span> min : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> option</span></span></code></div><div class="spec-doc"><p><code>min ~cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some e</code> where <code>e</code> is a minimum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-min_exn"><a href="#val-min_exn" class="anchor"></a><code><span><span class="keyword">val</span> min_exn : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span class="type-var">'a</span></span></code></div><div class="spec-doc"><p><code>min_exn ~cmp a</code> is like <a href="#val-min"><code>min</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmin"><a href="#val-argmin" class="anchor"></a><code><span><span class="keyword">val</span> argmin : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>argmin ~cmp a</code> returns <code>None</code> if <code>a</code> is empty, otherwise, returns <code>Some i</code> where <code>i</code> is the index of a minimum element in <code>a</code> with respect to <code>cmp</code>.</p><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-argmin_exn"><a href="#val-argmin_exn" class="anchor"></a><code><span><span class="keyword">val</span> argmin_exn : <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>argmin_exn ~cmp a</code> is like <a href="#val-argmin"><code>argmin</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Invalid_argument</span> <p>if <code>a</code> is empty.</p></li></ul><ul class="at-tags"><li class="since"><span class="at-tag">since</span> NEXT_RELEASE</li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup"><a href="#val-lookup" class="anchor"></a><code><span><span class="keyword">val</span> lookup : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span>key:<span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> <span>int option</span></span></code></div><div class="spec-doc"><p><code>lookup ~cmp ~key a</code> lookups the index of some key <code>key</code> in a sorted array <code>a</code>. Undefined behavior if the array <code>a</code> is not sorted wrt <code>cmp</code>. Complexity: <code>O(log (n))</code> (dichotomic search).</p><ul class="at-tags"><li class="returns"><span class="at-tag">returns</span> <p><code>None</code> if the key <code>key</code> is not present, or <code>Some i</code> (<code>i</code> the index of the key) otherwise.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-lookup_exn"><a href="#val-lookup_exn" class="anchor"></a><code><span><span class="keyword">val</span> lookup_exn : <span>cmp:<span><span class="type-var">'a</span> <a href="#type-ord">ord</a></span> <span class="arrow">&#45;&gt;</span></span> <span>key:<span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span> int</span></code></div><div class="spec-doc"><p><code>lookup_exn ~cmp ~key a</code> is like <a href="#val-lookup"><code>lookup</code></a>, but</p><ul class="at-tags"><li class="raises"><span class="at-tag">raises</span> <span class="value">Not_found</span> <p>if the key <code>key</code> is not present.</p></li></ul></div></div><div class="odoc-spec"><div class="spec value anchored" id="val-bsearch"><a href="#val-bsearch" class="anchor"></a><code><span><span class="keyword">val</span> bsearch : 
   <span>cmp:<span>(<span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> <span><span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span> int)</span> <span class="arrow">&#45;&gt;</span></span>
   <span>key:<span class="type-var">'a</span> <span class="arrow">&#45;&gt;</span></span>
   <span><span><span class="type-var">'a</span> <a href="#type-t">t</a></span> <span class="arrow">&#45;&gt;</span></span>