# Is there HashTable structure in Wolfram Mathematica?

I want to use a Structure like HashTable. Is there similar structure in Wolfram Mathematica?

Update: Mathematica version 10 introduced the `Association` data structure (tutorial).

There are a number of possibilities. The easiest possibility, which works well if you don't need to add or delete keys from your table, or change their associated values, is to construct a list of rules with the key on the left-hand side and the value on the right-hand side, and use `Dispatch` on it.

If you do need to change the entries in your table, you can use the `DownValues` of a symbol as a hash table. This will support all the operations one commonly uses with hash tables. Here's the most straightforward way of doing that:

``````(* Set some values in your table.*)
In:=  table[a] = foo; table[b] = bar; table[c] = baz;

(* Test whether some keys are present. *)
In:=  {ValueQ[table[a]], ValueQ[table[d]]}
Out:= {True, False}

(* Get a list of all keys and values, as delayed rules. *)
In:=  DownValues[table]
Out:= {HoldPattern[table[a]] :> foo, HoldPattern[table[b]] :> bar,
HoldPattern[table[c]] :> baz}

(* Remove a key from your table. *)
In:=  Unset[table[b]]; ValueQ[table[b]]
Out:= False
``````

I'd say the most similar structure you can get out of the box are sparse arrays.

• This answer deserves several more votes. In my humble opinion, it is almost always better to use out-of-the-box structures than to construct one's own. But `Pillsy` has also given a very good answer. – Shredderroy Oct 13 '13 at 19:27

Mathematica Downvalue Lhs

It includes a handy function for getting the keys of a hash table.

I've made Dictionary.m module, which contained:

``````DictHasKey = Function[
{
dict,
key
},
ValueQ[dict[key]]
]

{
dict,
key,
value
},
If[
Print["Warning, Dictionary already has key " <> ToString[key]]
];
dict[key] = value;
]

DictKeys = Function[
{
dict
},
res = {};
ForEach[DownValues[dict], Function[{dictKeyDescr},
res = Append[res, ((dictKeyDescr[]) /. dict -> neverUsedSymbolWhatever)[[1, 1]]];
]];
res
]

DictValues = Function[
{
dict
},
res = {};
ForEach[DownValues[dict], Function[{dictKeyDescr},
res = Append[res, dictKeyDescr[]];
]];
res
]

DictKeyValuePairs = Function[
{
dict
},
res = {};
ForEach[DownValues[dict], Function[{dictKeyDescr},
res = Append[res, {((dictKeyDescr[]) /. dict -> neverUsedSymbolWhatever)[[1, 1]], dictKeyDescr[]}];
]];
res
]

ForEach = Function[
{
list,
func
},
len = Length[list];
For[i = 1, i <= len, i++,
func[
list[[i]]
];
];
]
``````
• forgot: ForEach = Function[ { list, func }, len = Length[list]; For[i = 1, i <= len, i++, func[list[[i]]]; ]; ] – Fiard Nov 30 '11 at 16:40
• you can edit your answer to include that. – Mr.Wizard Nov 30 '11 at 16:58

Mathematica 10 introduces Association, `<| k -> v |>`,

``````<|a -> x, b -> y, c -> z|>
%[b]
y
``````

Which is basically a wrapper for a list of rules: Convert a list of rules to an association:

``````Association[{a -> x, b -> y, c -> z}]
<|a -> x, b -> y, c -> z|>
``````

Convert an association to a list of rules:

``````Normal[<|a -> x, b -> y, c -> z|>]
{a -> x, b -> y, c -> z}
``````