Dynamically extensible multiple dispatch via user supplied dispatch function, with minimal overhead and support for dispatch value inheritance hierarchies (more flexible and independent of any actual JS type relationships).
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defmulti
returns a new multi-dispatch function using the provided
dispatcher function. The dispatcher acts as a mapping function, can take
any number of arguments and must produce a dispatch value (string,
number or symbol) used to lookup an implementation. If found, the impl
is called with the same args. If no matching implementation is
available, attempts to dispatch to DEFAULT
impl. If none is
registered, an error is thrown.
defmulti
provides generics for type checking up to 8 args (plus the
return type) and the generics will also apply to all implementations. If
more than 8 args are required, defmulti
will fall back to an untyped
varargs solution.
The function returned by defmulti
can be called like any other
function, but also exposes the following operations:
.add(id, fn)
- adds/overrides implementation for given dispatch value.addAll(impls)
- add/override multiple implementations (given as object, with keys referring to dispatch values).remove(id)
- removes implementation for dispatch value.callable(...args)
- takes same args as if calling the multi-function, but only checks if an implementation exists for the given args. Returns boolean..isa(child, parent)
- establish dispatch value relationship hierarchy.impls()
- returns set of all dispatch values which have an implementation.rels()
- return all dispatch value relationships.parents(id)
- direct parents of dispatch valueid
.ancestors(id)
- transitive parents of dispatch valueid
.dependencies()
- returns iterator of all dispatch value relationship pairs
To avoid code duplication, dispatch values can be associated in
child-parent relationships and implementations only defined for some
ancestors. Iff no implementation exists for a concrete dispatch value,
defmulti
first attempts to find an implementation for any ancestor
dispatch value before using the DEFAULT
implementation.
These relationships can be defined via an additional (optional) object
arg to defmulti
and/or dynamically extended via the .isa(child, parent)
call to the multi-function. Relationships can also be queried
via .parents(id)
and .ancestors(id)
.
Note: If multiple direct parents are defined for a dispatch value, then it's currently undefined which implementation will be picked. If this causes issues to people, parents could be implemented as sorted list (each parent with weight) instead of Sets, but this will have perf impact... please open an issue if you run into problems!
import { defmulti } from "@thi.ng/defmulti";
const foo = defmulti((x) => x);
foo.isa(23, "odd");
foo.isa(42, "even");
foo.isa("odd", "number");
foo.isa("even", "number");
foo.parents(23); // Set { "odd" }
foo.ancestors(23); // Set { "odd", "number" }
foo.parents(1); // undefined
foo.ancestors(1); // Set { }
// add some implementations
foo.add("odd", (x) => `${x} is odd`);
foo.add("number", (x) => `${x} is a number`);
// dispatch values w/ implementations
foo.impls();
// Set { "odd", "even", "number", "23", "42" }
foo(23); // "23 is odd"
foo(42); // "42 is a number"
foo(1); // error (missing impl & no default)
foo.callable(1) // false
Same example, but with relationships provided as argument to defmulti
:
import { defmulti } from "@thi.ng/defmulti";
const foo = defmulti((x) => x, {
23: "odd",
42: "even",
"odd": "number",
"even": "number",
});
foo.rels();
// { "23": Set { "odd" },
// "42": Set { "even" },
// odd: Set { "number" },
// even: Set { "number" } }
Syntax-sugar intended for sets of multi-methods sharing same dispatch values / logic. Takes a dispatch value, an object of "is-a" relationships and a number of multi-methods, each with an implementation for the given dispatch value.
The relations object has dispatch values (parents) as keys and arrays of
multi-methods as their values. For each multi-method associates the
given type
with the related parent dispatch value to delegate to its
implementation (see .isa()
above).
The remaining implementations are associated with their related
multi-method and the given type
dispatch value.
import { defmulti, implementations } from "@thi.ng/defmulti";
foo = defmulti((x) => x.id);
bar = defmulti((x) => x.id);
bax = defmulti((x) => x.id);
baz = defmulti((x) => x.id);
// define impls for dispatch value `a`
implementations(
"a",
// delegate bax & baz impls to dispatch val `b`
{
b: [bax, baz]
},
// concrete multi-fn impls
foo,
(x) => `foo: ${x.val}`,
bar,
(x) => `bar: ${x.val.toUpperCase()}`
);
// some parent impls for bax & baz
bax.add("b", (x) => `bax: ${x.id}`);
baz.add("c", (x) => `baz: ${x.id}`);
// delegate to use "c" impl for "b"
baz.isa("b", "c");
foo({ id: "a", val: "alice" }); // "foo: alice"
bar({ id: "a", val: "alice" }); // "bar: ALICE"
bax({ id: "a", val: "alice" }); // "bax: a"
baz({ id: "a", val: "alice" }); // "baz: a"
baz.impls(); // Set { "c", "a", "b" }
Also see the WIP package @thi.ng/geom for a concreate realworld usage example.
Returns a multi-dispatch function which delegates to one of the provided
implementations, based on the arity (number of args) when the function
is called. Internally uses defmulti
, so new arities can be dynamically
added (or removed) at a later time. If no fallback
is provided,
defmultiN
also registers a DEFAULT
implementation which simply
throws an IllegalArityError
when invoked.
Note: Unlike defmulti
no argument type checking is supported,
however you can specify the return type for the generated function.
import { defmultiN } from "@thi.ng/defmulti";
const foo = defmultiN<string>({
0: () => "zero",
1: (x) => `one: ${x}`,
3: (x, y, z) => `three: ${x}, ${y}, ${z}`
});
foo();
// zero
foo(23);
// one: 23
foo(1, 2, 3);
// three: 1, 2, 3
foo(1, 2);
// Error: illegal arity: 2
import { defmulti, DEFAULT } from "@thi.ng/defmulti";
const visit = defmulti<any, void>((x) => Object.prototype.toString.call(x));
// register implementations for different dispatch types
// each dispatch value can only be registered once
visit.add("[object Array]", (x) => x.forEach(visit));
visit.add("[object Object]", (x) => { for(let k in x) visit([k, x[k]]); });
// ignore null values
visit.add("[object Null]", (x) => { });
// DEFAULT matches all other dispatch values
visit.add(DEFAULT, (x) => console.log("visit", x.toString()));
// call like normal fn
visit([{a: 1, b: ["foo", "bar", null, 42]}])
// a
// 1
// b
// foo
// bar
// 42
See /test/index.ts for a variation of this example.
import { defmulti, DEFAULT } from "@thi.ng/defmulti";
const exec = defmulti((x) => Array.isArray(x) ? x[0] : typeof x);
exec.add("+", ([_, ...args]) => args.reduce((acc, n) => acc + exec(n), 0));
exec.add("*", ([_, ...args]) => args.reduce((acc, n) => acc * exec(n), 1));
exec.add("number", (x) => x);
exec.add(DEFAULT, (x) => { throw new Error(`invalid expr: ${x}`); });
// 10 * (1 + 2 + 3) + 6
exec(["+", ["*", 10, ["+", 1, 2, 3]], 6]);
// 66
import { defmulti, DEFAULT } from "@thi.ng/defmulti";
// interest rate calculator based on account type & balance thresholds
const apr = defmulti(
({type, balance}) =>
`${type}-${balance < 1e4 ? "low" : balance < 5e4 ? "med" : "high"}`
);
apr.add("current-low", ({ balance }) => balance * 0.005);
apr.add("current-med", ({ balance }) => balance * 0.01);
apr.add("current-high", ({ balance }) => balance * 0.01);
apr.add("savings-low", ({ balance }) => balance * 0.01);
apr.add("savings-med", ({ balance }) => balance * 0.025);
apr.add("savings-high", ({ balance }) => balance * 0.035);
apr.add(DEFAULT, (x) => { throw new Error(`invalid account type: ${x.type}`)});
apr({type: "current", balance: 5000});
// 25
apr({type: "current", balance: 10000});
// 100
apr({type: "savings", balance: 10000});
// 250
apr({type: "isa", balance: 10000});
// Error: invalid account type: isa
To facilitate better introspection of dynamically constructed/added defmulti()
implementations (with possibly deep hierarchies of dispatch values), we can
utilize the .dependencies()
method to extract all dispatch value relationships
and use these to build dependency
graph, which
then can also be visualized.
import { defmulti } from "@thi.ng/defmulti";
import { defDGraph } from "@thi.ng/dgraph";
import { toDot } from "@thi.ng/dgraph-dot";
const fn = defmulti((x) => x);
// dummy impls
fn.add("a", () => {});
fn.add("d", () => {});
// dispatch value relationships
fn.isa("b", "a");
fn.isa("c", "b");
fn.isa("e", "d");
// build dependency graph and export as Graphviz DOT format
console.log(toDot(defDGraph(fn.dependencies()), { id: (id) => id }));
// digraph g {
// "b"[label="b"];
// "c"[label="c"];
// "e"[label="e"];
// "a"[label="a"];
// "d"[label="d"];
// "b" -> "a";
// "c" -> "b";
// "e" -> "d";
// }