258 lines
5.2 KiB
ReStructuredText
258 lines
5.2 KiB
ReStructuredText
====
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walk
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====
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.. versionadded:: 0.11.0
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Functions
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=========
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.. _walk:
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walk
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----
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Usage: `(walk inner outer form)`
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``walk`` traverses ``form``, an arbitrary data structure. Applies
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``inner`` to each element of form, building up a data structure of the
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same type. Applies ``outer`` to the result.
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Example:
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.. code-block:: hy
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=> (import [hy.contrib.walk [walk]])
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=> (setv a '(a b c d e f))
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=> (walk ord identity a)
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HyExpression([
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97,
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98,
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99,
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100,
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101,
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102])
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=> (walk ord first a)
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97
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postwalk
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--------
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.. _postwalk:
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Usage: `(postwalk f form)`
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Performs depth-first, post-order traversal of ``form``. Calls ``f`` on
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each sub-form, uses ``f`` 's return value in place of the original.
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.. code-block:: hy
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=> (import [hy.contrib.walk [postwalk]])
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=> (setv trail '([1 2 3] [4 [5 6 [7]]]))
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=> (defn walking [x]
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... (print "Walking:" x :sep "\n")
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... x)
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=> (postwalk walking trail)
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Walking:
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1
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Walking:
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2
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Walking:
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3
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Walking:
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HyExpression([
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HyInteger(1),
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HyInteger(2),
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HyInteger(3)])
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Walking:
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4
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Walking:
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5
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Walking:
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6
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Walking:
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7
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Walking:
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HyExpression([
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HyInteger(7)])
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Walking:
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HyExpression([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])
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Walking:
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HyExpression([
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HyInteger(4),
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])])
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Walking:
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HyExpression([
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HyList([
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HyInteger(1),
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HyInteger(2),
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HyInteger(3)]),
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HyList([
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HyInteger(4),
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])])])
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HyExpression([
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HyList([
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HyInteger(1),
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HyInteger(2),
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HyInteger(3)]),
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HyList([
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HyInteger(4),
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])])])
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prewalk
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-------
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.. _prewalk:
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Usage: `(prewalk f form)`
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Performs depth-first, pre-order traversal of ``form``. Calls ``f`` on
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each sub-form, uses ``f`` 's return value in place of the original.
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.. code-block:: hy
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=> (import [hy.contrib.walk [prewalk]])
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=> (setv trail '([1 2 3] [4 [5 6 [7]]]))
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=> (defn walking [x]
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... (print "Walking:" x :sep "\n")
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... x)
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=> (prewalk walking trail)
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Walking:
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HyExpression([
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HyList([
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HyInteger(1),
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HyInteger(2),
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HyInteger(3)]),
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HyList([
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HyInteger(4),
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])])])
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Walking:
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HyList([
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HyInteger(1),
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HyInteger(2),
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HyInteger(3)])
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Walking:
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1
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Walking:
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2
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Walking:
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3
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Walking:
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HyList([
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HyInteger(4),
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])])
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Walking:
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4
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Walking:
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])
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Walking:
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5
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Walking:
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6
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Walking:
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HyList([
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HyInteger(7)])
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Walking:
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7
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HyExpression([
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HyList([
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HyInteger(1),
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HyInteger(2),
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HyInteger(3)]),
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HyList([
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HyInteger(4),
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HyList([
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HyInteger(5),
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HyInteger(6),
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HyList([
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HyInteger(7)])])])])
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macroexpand-all
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---------------
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Usage: `(macroexpand-all form &optional module-name)`
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Recursively performs all possible macroexpansions in form, using the ``require`` context of ``module-name``.
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`macroexpand-all` assumes the calling module's context if unspecified.
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Macros
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======
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.. _let:
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let
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---
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``let`` creates lexically-scoped names for local variables.
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A let-bound name ceases to refer to that local outside the ``let`` form.
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Arguments in nested functions and bindings in nested ``let`` forms can shadow these names.
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.. code-block:: hy
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=> (let [x 5] ; creates a new local bound to name 'x
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... (print x)
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... (let [x 6] ; new local and name binding that shadows 'x
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... (print x))
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... (print x)) ; 'x refers to the first local again
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5
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6
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5
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Basic assignments (e.g. ``setv``, ``+=``) will update the local variable named by a let binding,
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when they assign to a let-bound name.
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But assignments via ``import`` are always hoisted to normal Python scope, and
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likewise, ``defclass`` will assign the class to the Python scope,
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even if it shares the name of a let binding.
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Use ``importlib.import_module`` and ``type`` (or whatever metaclass) instead,
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if you must avoid this hoisting.
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The ``let`` macro takes two parameters: a list defining *variables*
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and the *body* which gets executed. *variables* is a vector of
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variable and value pairs.
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Like the ``let*`` of many other Lisps, ``let`` executes the variable
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assignments one-by-one, in the order written::
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.. code-block:: hy
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=> (let [x 5
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... y (+ x 1)]
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... (print x y))
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5 6
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Unlike them, however, each ``(let …)`` form uses only one
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namespace for all its assignments. Thus, ``(let [x 1 x (fn [] x)]
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(x))`` returns a function object, not 1 as you might expect.
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It is an error to use a let-bound name in a ``global`` or ``nonlocal`` form.
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