<html><head> <link rel="stylesheet" href="style.css" type="text/css"> <meta content="text/html; charset=iso-8859-1" http-equiv="Content-Type"> <link rel="Start" href="index.html"> <link title="Index of types" rel=Appendix href="index_types.html"> <link title="Index of exceptions" rel=Appendix href="index_exceptions.html"> <link title="Index of values" rel=Appendix href="index_values.html"> <link title="Index of class methods" rel=Appendix href="index_methods.html"> <link title="Index of classes" rel=Appendix href="index_classes.html"> <link title="Index of modules" rel=Appendix href="index_modules.html"> <link title="Base64" rel="Chapter" href="Base64.html"> <link title="BitSet" rel="Chapter" href="BitSet.html"> <link title="Dllist" rel="Chapter" href="Dllist.html"> <link title="DynArray" rel="Chapter" href="DynArray.html"> <link title="Enum" rel="Chapter" href="Enum.html"> <link title="ExtArray" rel="Chapter" href="ExtArray.html"> <link title="ExtHashtbl" rel="Chapter" href="ExtHashtbl.html"> <link title="ExtList" rel="Chapter" href="ExtList.html"> <link title="ExtString" rel="Chapter" href="ExtString.html"> <link title="Global" rel="Chapter" href="Global.html"> <link title="IO" rel="Chapter" href="IO.html"> <link title="OptParse" rel="Chapter" href="OptParse.html"> <link title="Option" rel="Chapter" href="Option.html"> <link title="PMap" rel="Chapter" href="PMap.html"> <link title="RefList" rel="Chapter" href="RefList.html"> <link title="Std" rel="Chapter" href="Std.html"> <link title="UChar" rel="Chapter" href="UChar.html"> <link title="UTF8" rel="Chapter" href="UTF8.html"> <link title="Unzip" rel="Chapter" href="Unzip.html"><title>PMap</title> </head> <body> <code class="code"><span class="keyword">sig</span><br> <span class="keyword">type</span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) t<br> <span class="keyword">val</span> empty : (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t<br> <span class="keyword">val</span> is_empty : (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> bool<br> <span class="keyword">val</span> create : (<span class="keywordsign">'</span>a <span class="keywordsign">-></span> <span class="keywordsign">'</span>a <span class="keywordsign">-></span> int) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t<br> <span class="keyword">val</span> add : <span class="keywordsign">'</span>a <span class="keywordsign">-></span> <span class="keywordsign">'</span>b <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t<br> <span class="keyword">val</span> find : <span class="keywordsign">'</span>a <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> <span class="keywordsign">'</span>b<br> <span class="keyword">val</span> remove : <span class="keywordsign">'</span>a <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t<br> <span class="keyword">val</span> mem : <span class="keywordsign">'</span>a <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> bool<br> <span class="keyword">val</span> exists : <span class="keywordsign">'</span>a <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> bool<br> <span class="keyword">val</span> iter : (<span class="keywordsign">'</span>a <span class="keywordsign">-></span> <span class="keywordsign">'</span>b <span class="keywordsign">-></span> unit) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> unit<br> <span class="keyword">val</span> map : (<span class="keywordsign">'</span>b <span class="keywordsign">-></span> <span class="keywordsign">'</span>c) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>c) <span class="constructor">PMap</span>.t<br> <span class="keyword">val</span> mapi : (<span class="keywordsign">'</span>a <span class="keywordsign">-></span> <span class="keywordsign">'</span>b <span class="keywordsign">-></span> <span class="keywordsign">'</span>c) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>c) <span class="constructor">PMap</span>.t<br> <span class="keyword">val</span> fold : (<span class="keywordsign">'</span>b <span class="keywordsign">-></span> <span class="keywordsign">'</span>c <span class="keywordsign">-></span> <span class="keywordsign">'</span>c) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> <span class="keywordsign">'</span>c <span class="keywordsign">-></span> <span class="keywordsign">'</span>c<br> <span class="keyword">val</span> foldi : (<span class="keywordsign">'</span>a <span class="keywordsign">-></span> <span class="keywordsign">'</span>b <span class="keywordsign">-></span> <span class="keywordsign">'</span>c <span class="keywordsign">-></span> <span class="keywordsign">'</span>c) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> <span class="keywordsign">'</span>c <span class="keywordsign">-></span> <span class="keywordsign">'</span>c<br> <span class="keyword">val</span> enum : (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a * <span class="keywordsign">'</span>b) <span class="constructor">Enum</span>.t<br> <span class="keyword">val</span> of_enum : ?cmp:(<span class="keywordsign">'</span>a <span class="keywordsign">-></span> <span class="keywordsign">'</span>a <span class="keywordsign">-></span> int) <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a * <span class="keywordsign">'</span>b) <span class="constructor">Enum</span>.t <span class="keywordsign">-></span> (<span class="keywordsign">'</span>a, <span class="keywordsign">'</span>b) <span class="constructor">PMap</span>.t<br> <span class="keyword">end</span></code></body></html>