Use "lambda expression" as preferred to "lambda form".
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@ -347,20 +347,20 @@ Answer 2: Fortunately, there is `Stackless Python <http://www.stackless.com>`_,
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which has a completely redesigned interpreter loop that avoids the C stack.
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Why can't lambda forms contain statements?
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------------------------------------------
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Why can't lambda expressions contain statements?
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------------------------------------------------
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Python lambda forms cannot contain statements because Python's syntactic
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Python lambda expressions cannot contain statements because Python's syntactic
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framework can't handle statements nested inside expressions. However, in
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Python, this is not a serious problem. Unlike lambda forms in other languages,
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where they add functionality, Python lambdas are only a shorthand notation if
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you're too lazy to define a function.
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Functions are already first class objects in Python, and can be declared in a
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local scope. Therefore the only advantage of using a lambda form instead of a
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local scope. Therefore the only advantage of using a lambda instead of a
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locally-defined function is that you don't need to invent a name for the
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function -- but that's just a local variable to which the function object (which
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is exactly the same type of object that a lambda form yields) is assigned!
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is exactly the same type of object that a lambda expression yields) is assigned!
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Can Python be compiled to machine code, C or some other language?
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@ -535,17 +535,17 @@ function. The annotation values are available as values of a dictionary keyed
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by the parameters' names in the :attr:`__annotations__` attribute of the
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function object.
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.. index:: pair: lambda; form
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.. index:: pair: lambda; expression
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It is also possible to create anonymous functions (functions not bound to a
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name), for immediate use in expressions. This uses lambda forms, described in
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section :ref:`lambda`. Note that the lambda form is merely a shorthand for a
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name), for immediate use in expressions. This uses lambda expressions, described in
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section :ref:`lambda`. Note that the lambda expression is merely a shorthand for a
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simplified function definition; a function defined in a ":keyword:`def`"
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statement can be passed around or assigned to another name just like a function
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defined by a lambda form. The ":keyword:`def`" form is actually more powerful
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defined by a lambda expression. The ":keyword:`def`" form is actually more powerful
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since it allows the execution of multiple statements and annotations.
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**Programmer's note:** Functions are first-class objects. A "``def``" form
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**Programmer's note:** Functions are first-class objects. A "``def``" statement
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executed inside a function definition defines a local function that can be
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returned or passed around. Free variables used in the nested function can
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access the local variables of the function containing the def. See section
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@ -1218,8 +1218,8 @@ Conditional expressions
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.. productionlist::
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conditional_expression: `or_test` ["if" `or_test` "else" `expression`]
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expression: `conditional_expression` | `lambda_form`
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expression_nocond: `or_test` | `lambda_form_nocond`
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expression: `conditional_expression` | `lambda_expr`
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expression_nocond: `or_test` | `lambda_expr_nocond`
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Conditional expressions (sometimes called a "ternary operator") have the lowest
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priority of all Python operations.
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@ -1243,10 +1243,10 @@ Lambdas
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pair: anonymous; function
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.. productionlist::
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lambda_form: "lambda" [`parameter_list`]: `expression`
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lambda_form_nocond: "lambda" [`parameter_list`]: `expression_nocond`
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lambda_expr: "lambda" [`parameter_list`]: `expression`
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lambda_expr_nocond: "lambda" [`parameter_list`]: `expression_nocond`
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Lambda forms (lambda expressions) have the same syntactic position as
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Lambda expressions (sometimes called lambda forms) have the same syntactic position as
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expressions. They are a shorthand to create anonymous functions; the expression
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``lambda arguments: expression`` yields a function object. The unnamed object
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behaves like a function object defined with ::
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@ -1255,7 +1255,8 @@ behaves like a function object defined with ::
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return expression
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See section :ref:`function` for the syntax of parameter lists. Note that
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functions created with lambda forms cannot contain statements or annotations.
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functions created with lambda expressions cannot contain statements or
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annotations.
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.. _exprlists:
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@ -588,7 +588,7 @@ Lambda Expressions
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Small anonymous functions can be created with the :keyword:`lambda` keyword.
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This function returns the sum of its two arguments: ``lambda a, b: a+b``.
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Lambda forms can be used wherever function objects are required. They are
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Lambda functions can be used wherever function objects are required. They are
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syntactically restricted to a single expression. Semantically, they are just
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syntactic sugar for a normal function definition. Like nested function
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definitions, lambda functions can reference variables from the containing
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