问题:eval,exec和compile有什么区别?

我一直在研究Python代码的动态评估,并遇到eval()compile()函数,以及exec语句。

有人可以解释之间的区别evalexec怎样的不同模式,compile()适应吗?

I’ve been looking at dynamic evaluation of Python code, and come across the eval() and compile() functions, and the exec statement.

Can someone please explain the difference between eval and exec, and how the different modes of compile() fit in?


回答 0

简短答案,即TL; DR

基本上,eval用于EVAL审视你们单个动态生成的Python表达式,并exec用于EXEC动态生成的Python代码仅针对其副作用尤特。

evalexec具有以下两个区别:

  1. eval仅接受一个表达式exec可以采用具有Python语句的代码块:循环try: except:class和函数/方法def初始化等。

    Python中的表达式就是变量赋值中的值:

    a_variable = (anything you can put within these parentheses is an expression)
  2. eval 返回给定表达式的值,而exec忽略其代码中的返回值,并始终返回None(在Python 2中,它是一条语句,不能用作表达式,因此它实际上不返回任何内容)。

在1.0-2.7版本中,exec有一条声明是因为CPython需要为函数生成另一种类型的代码对象,这些代码对象用于在函数exec内部产生副作用。

在Python 3中,exec是一个函数;它的使用对使用它的函数的已编译字节码没有影响。


因此基本上:

>>> a = 5
>>> eval('37 + a')   # it is an expression
42
>>> exec('37 + a')   # it is an expression statement; value is ignored (None is returned)
>>> exec('a = 47')   # modify a global variable as a side effect
>>> a
47
>>> eval('a = 47')  # you cannot evaluate a statement
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    a = 47
      ^
SyntaxError: invalid syntax

compile'exec'模式编译任何数目的语句编译成字节码隐含总是返回None,而在'eval'模式它编译一个单一表达式成字节码即返回该表达式的值。

>>> eval(compile('42', '<string>', 'exec'))  # code returns None
>>> eval(compile('42', '<string>', 'eval'))  # code returns 42
42
>>> exec(compile('42', '<string>', 'eval'))  # code returns 42,
>>>                                          # but ignored by exec

在这种'eval'模式下(eval如果传递了一个字符串,则在函数中),compile如果源代码包含语句或除单个表达式之外的任何其他内容,则会引发异常:

>>> compile('for i in range(3): print(i)', '<string>', 'eval')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print(i)
      ^
SyntaxError: invalid syntax

实际上,“ eval仅接受单个表达式”语句仅在将字符串(包含Python 源代码)传递给时适用eval。然后将其内部使用编译为字节码。compile(source, '<string>', 'eval')这才是真正的区别。

如果将一个code对象(包含Python 字节码)传递给execeval,则它们的行为相同,除了exec忽略返回值的事实外,它None始终会始终返回。因此eval,如果您只是将compile它先转换为字节码而不是将其作为字符串传递,则可以执行具有语句的内容:

>>> eval(compile('if 1: print("Hello")', '<string>', 'exec'))
Hello
>>>

即使已编译的代码包含语句,也可以正常工作。它仍然会返回None,因为那是从中返回的代码对象的返回值。compile

在这种'eval'模式下(eval如果传递了一个字符串,则在函数中),compile如果源代码包含语句或除单个表达式之外的任何其他内容,则会引发异常:

>>> compile('for i in range(3): print(i)', '<string>'. 'eval')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print(i)
      ^
SyntaxError: invalid syntax

答案越长,又称血腥细节

execeval

exec函数(在Python 2中为语句)用于执行动态创建的语句或程序:

>>> program = '''
for i in range(3):
    print("Python is cool")
'''
>>> exec(program)
Python is cool
Python is cool
Python is cool
>>> 

eval函数对单个表达式执行相同的操作,返回表达式的值:

>>> a = 2
>>> my_calculation = '42 * a'
>>> result = eval(my_calculation)
>>> result
84

execeval均接受该程序/表达到无论是作为一个运行strunicodebytes对象包含源代码,或者作为一个code对象包含的Python字节码。

如果str/ unicode/ bytes包含源代码传递给exec,它等效行为与:

exec(compile(source, '<string>', 'exec'))

并且eval类似地等效于:

eval(compile(source, '<string>', 'eval'))

由于所有表达式都可以用作Python中的语句(Expr在Python 抽象语法中被称为节点;反之则不成立),exec如果不需要返回值,则可以始终使用。也就是说,您可以使用eval('my_func(42)')exec('my_func(42)'),区别在于eval返回的返回值是my_func,并将其exec丢弃:

>>> def my_func(arg):
...     print("Called with %d" % arg)
...     return arg * 2
... 
>>> exec('my_func(42)')
Called with 42
>>> eval('my_func(42)')
Called with 42
84
>>> 

2,只有exec接受包含语句,源代码一样defforwhileimport,或者class,赋值语句(又名a = 42),或整个程序:

>>> exec('for i in range(3): print(i)')
0
1
2
>>> eval('for i in range(3): print(i)')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print(i)
      ^
SyntaxError: invalid syntax

双方execeval接受2个额外的位置参数- globalslocals-这是全局和局部变量的作用域,该代码看到。它们默认为globals()和,它们locals()在称为exec或的范围内eval,但任何字典都可以用于globals和,mapping用于localsdict当然包括)。这些不仅可以用于限制/修改代码中看到的变量,而且还经常用于捕获被引用exec代码创建的变量:

>>> g = dict()
>>> l = dict()
>>> exec('global a; a, b = 123, 42', g, l)
>>> g['a']
123
>>> l
{'b': 42}

(如果您显示整个的价值g,这将是更长的时间,因为execeval添加内置插件模块__builtins__来自动如果缺少它的全局变量)。

在Python 2中,该exec语句的正式语法实际上是exec code in globals, locals,如

>>> exec 'global a; a, b = 123, 42' in g, l

但是,替代语法exec(code, globals, locals)也一直被接受(见下文)。

compile

所述内置的可用于加快与相同的码的重复调用execeval通过编译源到code对象预先。所述mode参数控制的那种代码片段的compile函数接受和种字节码它产生。选择是'eval''exec''single'

  • 'eval'模式需要一个表达式,并将生成字节码,运行时将返回该表达式的值:

    >>> dis.dis(compile('a + b', '<string>', 'eval'))
      1           0 LOAD_NAME                0 (a)
                  3 LOAD_NAME                1 (b)
                  6 BINARY_ADD
                  7 RETURN_VALUE
  • 'exec'接受从单个表达式到整个代码模块的任何类型的python构造,并像将其作为模块顶级语句一样执行它们。代码对象返回None

    >>> dis.dis(compile('a + b', '<string>', 'exec'))
      1           0 LOAD_NAME                0 (a)
                  3 LOAD_NAME                1 (b)
                  6 BINARY_ADD
                  7 POP_TOP                             <- discard result
                  8 LOAD_CONST               0 (None)   <- load None on stack
                 11 RETURN_VALUE                        <- return top of stack
  • 'single'是一种有限形式,如果最后一条语句是表达式语句,则该格式'exec'接受包含单个语句(或多个由分隔的语句;)的源代码,生成的字节码还将该表达式的值打印repr到标准output(!)上

    一个ifelifelse链,有一个循环else,并try用它exceptelsefinally块被视为一个单独的语句。

    包含2个顶级语句的源代码片段是的错误'single',但在Python 2中存在一个错误,有时会在代码中允许多个顶级语句。只有第一个被编译;其余的将被忽略:

    在Python 2.7.8中:

    >>> exec(compile('a = 5\na = 6', '<string>', 'single'))
    >>> a
    5

    在Python 3.4.2中:

    >>> exec(compile('a = 5\na = 6', '<string>', 'single'))
    Traceback (most recent call last):
      File "<stdin>", line 1, in <module>
      File "<string>", line 1
        a = 5
            ^
    SyntaxError: multiple statements found while compiling a single statement

    这对于制作交互式Python Shell非常有用。但是,即使返回eval结果代码,也不返回表达式的值。

这样的最大区别execeval实际上来自compile函数及其模式。


除了将源代码编译为字节码之外,还compile支持将抽象语法树(Python代码的解析树)编译为code对象;并将源代码转换成抽象语法树(ast.parse用Python编写,仅调用compile(source, filename, mode, PyCF_ONLY_AST));这些代码用于动态修改源代码,以及动态代码创建,因为在复杂情况下,将代码作为节点树而不是文本行来处理通常会更容易。


虽然eval只允许您评估包含单个表达式的字符串,但是您可以eval使用整个语句,甚至可以是已被compile打包为字节码的整个模块。也就是说,对于Python 2,这print是一条语句,不能直接eval导致:

>>> eval('for i in range(3): print("Python is cool")')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print("Python is cool")
      ^
SyntaxError: invalid syntax

compile'exec'模式将它变成一个code对象,你就能eval 做到 ; 该eval函数将返回None

>>> code = compile('for i in range(3): print("Python is cool")',
                   'foo.py', 'exec')
>>> eval(code)
Python is cool
Python is cool
Python is cool

如果一个长相到源代码CPython的3,这是很明显的; 它们都PyEval_EvalCode使用相同的参数调用,唯一的区别是exec显式返回None

execPython 2和Python 3之间的语法差异

其中一个在Python的主要区别2exec一个声明,eval是一个内置的功能(两者都内置函数在Python 3)。众所周知exec,Python 2 中的正式语法为exec code [in globals[, locals]]

与大多数Python 2到3 移植 指南 似乎并不像 建议的那样execCPython 2中的语句也可以与看起来 完全execPython 3中的函数调用的语法一起使用。原因是Python 0.9.9具有exec(code, globals, locals)内置的在功能上!并且该内置函数在Python 1.0发布之前的某处exec语句替换。

由于这是可取的不破与Python 0.9.9向后兼容性,吉多·范罗苏姆在1993年增加了兼容性劈:如果code是长度为2或3的元组,并globalslocals未传递到exec声明,否则,code将被解释就像元组的第二个元素和第三个元素分别是globals和一样locals。即使在Python 1.4文档(在线最早可用的版本)中也没有提到兼容性hack ;因此对于移植指南和工具的许多作者并不了解,直到2012年11月再次对其进行了记录

第一个表达式也可以是长度为2或3的元组。在这种情况下,必须省略可选部分。形式exec(expr, globals)等同于exec expr in globals,而形式exec(expr, globals, locals)等同于exec expr in globals, locals。元组形式exec提供了与Python 3的兼容性,Python 3 exec是函数而不是语句。

是的,在CPython 2.7中它被方便地称为前向兼容选项(为什么使人们感到困惑,因为根本没有向后兼容选项),实际上它已经存在了二十年了

因此,虽然exec在Python 1和Python 2中是一个语句,而在Python 3和Python 0.9.9中是一个内置函数,

>>> exec("print(a)", globals(), {'a': 42})
42

在可能的每个广泛发行的Python版本中都具有相同的行为;并且也可以在Jython 2.5.2,PyPy 2.3.1(Python 2.7.6)和IronPython 2.6.1中使用(对它们的严格遵循CPython的未记录的行为表示敬意)。

在Pythons 1.0-2.7中,通过其兼容性技巧,您不能做的是将返回值存储exec到变量中:

Python 2.7.11+ (default, Apr 17 2016, 14:00:29) 
[GCC 5.3.1 20160413] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> a = exec('print(42)')
  File "<stdin>", line 1
    a = exec('print(42)')
           ^
SyntaxError: invalid syntax

(这在Python 3中也没有用,因为它exec总是返回None),或将引用传递给exec

>>> call_later(exec, 'print(42)', delay=1000)
  File "<stdin>", line 1
    call_later(exec, 'print(42)', delay=1000)
                  ^
SyntaxError: invalid syntax

某人可能实际使用过的一种模式,尽管可能性不大;

或在列表理解中使用它:

>>> [exec(i) for i in ['print(42)', 'print(foo)']
  File "<stdin>", line 1
    [exec(i) for i in ['print(42)', 'print(foo)']
        ^
SyntaxError: invalid syntax

这是对列表理解的滥用(请for改为使用循环!)。

The short answer, or TL;DR

Basically, eval is used to evaluate a single dynamically generated Python expression, and exec is used to execute dynamically generated Python code only for its side effects.

eval and exec have these two differences:

  1. eval accepts only a single expression, exec can take a code block that has Python statements: loops, try: except:, class and function/method definitions and so on.

    An expression in Python is whatever you can have as the value in a variable assignment:

    a_variable = (anything you can put within these parentheses is an expression)
    
  2. eval returns the value of the given expression, whereas exec ignores the return value from its code, and always returns None (in Python 2 it is a statement and cannot be used as an expression, so it really does not return anything).

In versions 1.0 – 2.7, exec was a statement, because CPython needed to produce a different kind of code object for functions that used exec for its side effects inside the function.

In Python 3, exec is a function; its use has no effect on the compiled bytecode of the function where it is used.


Thus basically:

>>> a = 5
>>> eval('37 + a')   # it is an expression
42
>>> exec('37 + a')   # it is an expression statement; value is ignored (None is returned)
>>> exec('a = 47')   # modify a global variable as a side effect
>>> a
47
>>> eval('a = 47')  # you cannot evaluate a statement
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    a = 47
      ^
SyntaxError: invalid syntax

The compile in 'exec' mode compiles any number of statements into a bytecode that implicitly always returns None, whereas in 'eval' mode it compiles a single expression into bytecode that returns the value of that expression.

>>> eval(compile('42', '<string>', 'exec'))  # code returns None
>>> eval(compile('42', '<string>', 'eval'))  # code returns 42
42
>>> exec(compile('42', '<string>', 'eval'))  # code returns 42,
>>>                                          # but ignored by exec

In the 'eval' mode (and thus with the eval function if a string is passed in), the compile raises an exception if the source code contains statements or anything else beyond a single expression:

>>> compile('for i in range(3): print(i)', '<string>', 'eval')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print(i)
      ^
SyntaxError: invalid syntax

Actually the statement “eval accepts only a single expression” applies only when a string (which contains Python source code) is passed to eval. Then it is internally compiled to bytecode using compile(source, '<string>', 'eval') This is where the difference really comes from.

If a code object (which contains Python bytecode) is passed to exec or eval, they behave identically, excepting for the fact that exec ignores the return value, still returning None always. So it is possible use eval to execute something that has statements, if you just compiled it into bytecode before instead of passing it as a string:

>>> eval(compile('if 1: print("Hello")', '<string>', 'exec'))
Hello
>>>

works without problems, even though the compiled code contains statements. It still returns None, because that is the return value of the code object returned from compile.

In the 'eval' mode (and thus with the eval function if a string is passed in), the compile raises an exception if the source code contains statements or anything else beyond a single expression:

>>> compile('for i in range(3): print(i)', '<string>'. 'eval')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print(i)
      ^
SyntaxError: invalid syntax

The longer answer, a.k.a the gory details

exec and eval

The exec function (which was a statement in Python 2) is used for executing a dynamically created statement or program:

>>> program = '''
for i in range(3):
    print("Python is cool")
'''
>>> exec(program)
Python is cool
Python is cool
Python is cool
>>> 

The eval function does the same for a single expression, and returns the value of the expression:

>>> a = 2
>>> my_calculation = '42 * a'
>>> result = eval(my_calculation)
>>> result
84

exec and eval both accept the program/expression to be run either as a str, unicode or bytes object containing source code, or as a code object which contains Python bytecode.

If a str/unicode/bytes containing source code was passed to exec, it behaves equivalently to:

exec(compile(source, '<string>', 'exec'))

and eval similarly behaves equivalent to:

eval(compile(source, '<string>', 'eval'))

Since all expressions can be used as statements in Python (these are called the Expr nodes in the Python abstract grammar; the opposite is not true), you can always use exec if you do not need the return value. That is to say, you can use either eval('my_func(42)') or exec('my_func(42)'), the difference being that eval returns the value returned by my_func, and exec discards it:

>>> def my_func(arg):
...     print("Called with %d" % arg)
...     return arg * 2
... 
>>> exec('my_func(42)')
Called with 42
>>> eval('my_func(42)')
Called with 42
84
>>> 

Of the 2, only exec accepts source code that contains statements, like def, for, while, import, or class, the assignment statement (a.k.a a = 42), or entire programs:

>>> exec('for i in range(3): print(i)')
0
1
2
>>> eval('for i in range(3): print(i)')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print(i)
      ^
SyntaxError: invalid syntax

Both exec and eval accept 2 additional positional arguments – globals and locals – which are the global and local variable scopes that the code sees. These default to the globals() and locals() within the scope that called exec or eval, but any dictionary can be used for globals and any mapping for locals (including dict of course). These can be used not only to restrict/modify the variables that the code sees, but are often also used for capturing the variables that the executed code creates:

>>> g = dict()
>>> l = dict()
>>> exec('global a; a, b = 123, 42', g, l)
>>> g['a']
123
>>> l
{'b': 42}

(If you display the value of the entire g, it would be much longer, because exec and eval add the built-ins module as __builtins__ to the globals automatically if it is missing).

In Python 2, the official syntax for the exec statement is actually exec code in globals, locals, as in

>>> exec 'global a; a, b = 123, 42' in g, l

However the alternate syntax exec(code, globals, locals) has always been accepted too (see below).

compile

The built-in can be used to speed up repeated invocations of the same code with exec or eval by compiling the source into a code object beforehand. The mode parameter controls the kind of code fragment the compile function accepts and the kind of bytecode it produces. The choices are 'eval', 'exec' and 'single':

  • 'eval' mode expects a single expression, and will produce bytecode that when run will return the value of that expression:

    >>> dis.dis(compile('a + b', '<string>', 'eval'))
      1           0 LOAD_NAME                0 (a)
                  3 LOAD_NAME                1 (b)
                  6 BINARY_ADD
                  7 RETURN_VALUE
    
  • 'exec' accepts any kinds of python constructs from single expressions to whole modules of code, and executes them as if they were module top-level statements. The code object returns None:

    >>> dis.dis(compile('a + b', '<string>', 'exec'))
      1           0 LOAD_NAME                0 (a)
                  3 LOAD_NAME                1 (b)
                  6 BINARY_ADD
                  7 POP_TOP                             <- discard result
                  8 LOAD_CONST               0 (None)   <- load None on stack
                 11 RETURN_VALUE                        <- return top of stack
    
  • 'single' is a limited form of 'exec' which accepts a source code containing a single statement (or multiple statements separated by ;) if the last statement is an expression statement, the resulting bytecode also prints the repr of the value of that expression to the standard output(!).

    An ifelifelse chain, a loop with else, and try with its except, else and finally blocks is considered a single statement.

    A source fragment containing 2 top-level statements is an error for the 'single', except in Python 2 there is a bug that sometimes allows multiple toplevel statements in the code; only the first is compiled; the rest are ignored:

    In Python 2.7.8:

    >>> exec(compile('a = 5\na = 6', '<string>', 'single'))
    >>> a
    5
    

    And in Python 3.4.2:

    >>> exec(compile('a = 5\na = 6', '<string>', 'single'))
    Traceback (most recent call last):
      File "<stdin>", line 1, in <module>
      File "<string>", line 1
        a = 5
            ^
    SyntaxError: multiple statements found while compiling a single statement
    

    This is very useful for making interactive Python shells. However, the value of the expression is not returned, even if you eval the resulting code.

Thus greatest distinction of exec and eval actually comes from the compile function and its modes.


In addition to compiling source code to bytecode, compile supports compiling abstract syntax trees (parse trees of Python code) into code objects; and source code into abstract syntax trees (the ast.parse is written in Python and just calls compile(source, filename, mode, PyCF_ONLY_AST)); these are used for example for modifying source code on the fly, and also for dynamic code creation, as it is often easier to handle the code as a tree of nodes instead of lines of text in complex cases.


While eval only allows you to evaluate a string that contains a single expression, you can eval a whole statement, or even a whole module that has been compiled into bytecode; that is, with Python 2, print is a statement, and cannot be evalled directly:

>>> eval('for i in range(3): print("Python is cool")')
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<string>", line 1
    for i in range(3): print("Python is cool")
      ^
SyntaxError: invalid syntax

compile it with 'exec' mode into a code object and you can eval it; the eval function will return None.

>>> code = compile('for i in range(3): print("Python is cool")',
                   'foo.py', 'exec')
>>> eval(code)
Python is cool
Python is cool
Python is cool

If one looks into and source code in CPython 3, this is very evident; they both call PyEval_EvalCode with same arguments, the only difference being that exec explicitly returns None.

Syntax differences of exec between Python 2 and Python 3

One of the major differences in Python 2 is that exec is a statement and eval is a built-in function (both are built-in functions in Python 3). It is a well-known fact that the official syntax of exec in Python 2 is exec code [in globals[, locals]].

Unlike majority of the Python 2-to-3 porting guides seem to suggest, the exec statement in CPython 2 can be also used with syntax that looks exactly like the exec function invocation in Python 3. The reason is that Python 0.9.9 had the exec(code, globals, locals) built-in function! And that built-in function was replaced with exec statement somewhere before Python 1.0 release.

Since it was desirable to not break backwards compatibility with Python 0.9.9, Guido van Rossum added a compatibility hack in 1993: if the code was a tuple of length 2 or 3, and globals and locals were not passed into the exec statement otherwise, the code would be interpreted as if the 2nd and 3rd element of the tuple were the globals and locals respectively. The compatibility hack was not mentioned even in Python 1.4 documentation (the earliest available version online); and thus was not known to many writers of the porting guides and tools, until it was documented again in November 2012:

The first expression may also be a tuple of length 2 or 3. In this case, the optional parts must be omitted. The form exec(expr, globals) is equivalent to exec expr in globals, while the form exec(expr, globals, locals) is equivalent to exec expr in globals, locals. The tuple form of exec provides compatibility with Python 3, where exec is a function rather than a statement.

Yes, in CPython 2.7 that it is handily referred to as being a forward-compatibility option (why confuse people over that there is a backward compatibility option at all), when it actually had been there for backward-compatibility for two decades.

Thus while exec is a statement in Python 1 and Python 2, and a built-in function in Python 3 and Python 0.9.9,

>>> exec("print(a)", globals(), {'a': 42})
42

has had identical behaviour in possibly every widely released Python version ever; and works in Jython 2.5.2, PyPy 2.3.1 (Python 2.7.6) and IronPython 2.6.1 too (kudos to them following the undocumented behaviour of CPython closely).

What you cannot do in Pythons 1.0 – 2.7 with its compatibility hack, is to store the return value of exec into a variable:

Python 2.7.11+ (default, Apr 17 2016, 14:00:29) 
[GCC 5.3.1 20160413] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> a = exec('print(42)')
  File "<stdin>", line 1
    a = exec('print(42)')
           ^
SyntaxError: invalid syntax

(which wouldn’t be useful in Python 3 either, as exec always returns None), or pass a reference to exec:

>>> call_later(exec, 'print(42)', delay=1000)
  File "<stdin>", line 1
    call_later(exec, 'print(42)', delay=1000)
                  ^
SyntaxError: invalid syntax

Which a pattern that someone might actually have used, though unlikely;

Or use it in a list comprehension:

>>> [exec(i) for i in ['print(42)', 'print(foo)']
  File "<stdin>", line 1
    [exec(i) for i in ['print(42)', 'print(foo)']
        ^
SyntaxError: invalid syntax

which is abuse of list comprehensions (use a for loop instead!).


回答 1

  1. exec不是表达式:Python 2.x中的语句和Python 3.x中的函数。它编译并立即评估字符串中包含的一条语句或一组语句。例:

    exec('print(5)')           # prints 5.
    # exec 'print 5'     if you use Python 2.x, nor the exec neither the print is a function there
    exec('print(5)\nprint(6)')  # prints 5{newline}6.
    exec('if True: print(6)')  # prints 6.
    exec('5')                 # does nothing and returns nothing.
  2. eval是一个内置函数(不是语句),该函数对一个表达式求值并返回该表达式产生的值。例:

    x = eval('5')              # x <- 5
    x = eval('%d + 6' % x)     # x <- 11
    x = eval('abs(%d)' % -100) # x <- 100
    x = eval('x = 5')          # INVALID; assignment is not an expression.
    x = eval('if 1: x = 4')    # INVALID; if is a statement, not an expression.
  3. compile是水平较低版本execeval。它不会执行或评估您的语句或表达式,但会返回可以执行此操作的代码对象。模式如下:

    1. compile(string, '', 'eval')返回如果您完成将执行的代码对象eval(string)。请注意,您不能在这种模式下使用语句。仅(单个)表达式有效。
    2. compile(string, '', 'exec')返回如果您完成将执行的代码对象exec(string)。您可以在此处使用任意数量的语句。
    3. compile(string, '', 'single')类似于exec模式,但是它将忽略除第一条语句以外的所有内容。请注意,带有结果的if/ else语句被视为单个语句。
  1. exec is not an expression: a statement in Python 2.x, and a function in Python 3.x. It compiles and immediately evaluates a statement or set of statement contained in a string. Example:

    exec('print(5)')           # prints 5.
    # exec 'print 5'     if you use Python 2.x, nor the exec neither the print is a function there
    exec('print(5)\nprint(6)')  # prints 5{newline}6.
    exec('if True: print(6)')  # prints 6.
    exec('5')                 # does nothing and returns nothing.
    
  2. eval is a built-in function (not a statement), which evaluates an expression and returns the value that expression produces. Example:

    x = eval('5')              # x <- 5
    x = eval('%d + 6' % x)     # x <- 11
    x = eval('abs(%d)' % -100) # x <- 100
    x = eval('x = 5')          # INVALID; assignment is not an expression.
    x = eval('if 1: x = 4')    # INVALID; if is a statement, not an expression.
    
  3. compile is a lower level version of exec and eval. It does not execute or evaluate your statements or expressions, but returns a code object that can do it. The modes are as follows:

    1. compile(string, '', 'eval') returns the code object that would have been executed had you done eval(string). Note that you cannot use statements in this mode; only a (single) expression is valid.
    2. compile(string, '', 'exec') returns the code object that would have been executed had you done exec(string). You can use any number of statements here.
    3. compile(string, '', 'single') is like the exec mode, but it will ignore everything except for the first statement. Note that an if/else statement with its results is considered a single statement.

回答 2

exec用于语句,不返回任何内容。eval用于表达式,并返回表达式的值。

表达式表示“某事”,而语句表示“做某事”。

exec is for statement and does not return anything. eval is for expression and returns value of expression.

expression means “something” while statement means “do something”.


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