Python yield與實現(xiàn)
yield的功能類似于return�����,但是不同之處在于它返回的是生成器。
生成器
生成器是通過一個或多個yield表達(dá)式構(gòu)成的函數(shù)�,每一個生成器都是一個迭代器(但是迭代器不一定是生成器)。
如果一個函數(shù)包含yield關(guān)鍵字�,這個函數(shù)就會變?yōu)橐粋€生成器。
生成器并不會一次返回所有結(jié)果�,而是每次遇到yield關(guān)鍵字后返回相應(yīng)結(jié)果��,并保留函數(shù)當(dāng)前的運行狀態(tài)�����,等待下一次的調(diào)用�。
由于生成器也是一個迭代器��,那么它就應(yīng)該支持next方法來獲取下一個值�����。
基本操作
# 通過`yield`來創(chuàng)建生成器
def func():
for i in xrange(10);
yield i
# 通過列表來創(chuàng)建生成器
[i for i in xrange(10)]
# 調(diào)用如下
>>> f = func()
>>> f # 此時生成器還沒有運行
<generator object func at 0x7fe01a853820>
>>> f.next() # 當(dāng)i=0時�����,遇到y(tǒng)ield關(guān)鍵字�����,直接返回
0
>>> f.next() # 繼續(xù)上一次執(zhí)行的位置���,進(jìn)入下一層循環(huán)
1
...
>>> f.next()
9
>>> f.next() # 當(dāng)執(zhí)行完最后一次循環(huán)后����,結(jié)束yield語句,生成StopIteration異常
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
StopIteration
>>>
除了next函數(shù)�,生成器還支持send函數(shù)。該函數(shù)可以向生成器傳遞參數(shù)�。
>>> def func():
... n = 0
... while 1:
... n = yield n #可以通過send函數(shù)向n賦值
...
>>> f = func()
>>> f.next() # 默認(rèn)情況下n為0
0
>>> f.send(1) #n賦值1
1
>>> f.send(2)
2
>>>
應(yīng)用
最經(jīng)典的例子,生成無限序列���。
常規(guī)的解決方法是���,生成一個滿足要求的很大的列表,這個列表需要保存在內(nèi)存中�,很明顯內(nèi)存限制了這個問題。
def get_primes(start):
for element in magical_infinite_range(start):
if is_prime(element):
return element
如果使用生成器就不需要返回整個列表�����,每次都只是返回一個數(shù)據(jù)����,避免了內(nèi)存的限制問題�。
def get_primes(number):
while True:
if is_prime(number):
yield number
number += 1
生成器源碼分析
生成器的源碼在Objects/genobject.c。
調(diào)用棧
在解釋生成器之前����,需要講解一下Python虛擬機(jī)的調(diào)用原理��。
Python虛擬機(jī)有一個棧幀的調(diào)用棧����,其中棧幀的是PyFrameObject����,位于Include/frameobject.h。
typedef struct _frame {
PyObject_VAR_HEAD
struct _frame *f_back; /* previous frame, or NULL */
PyCodeObject *f_code; /* code segment */
PyObject *f_builtins; /* builtin symbol table (PyDictObject) */
PyObject *f_globals; /* global symbol table (PyDictObject) */
PyObject *f_locals; /* local symbol table (any mapping) */
PyObject **f_valuestack; /* points after the last local */
/* Next free slot in f_valuestack. Frame creation sets to f_valuestack.
Frame evaluation usually NULLs it, but a frame that yields sets it
to the current stack top. */
PyObject **f_stacktop;
PyObject *f_trace; /* Trace function */
/* If an exception is raised in this frame, the next three are used to
* record the exception info (if any) originally in the thread state. See
* comments before set_exc_info() -- it's not obvious.
* Invariant: if _type is NULL, then so are _value and _traceback.
* Desired invariant: all three are NULL, or all three are non-NULL. That
* one isn't currently true, but "should be".
*/
PyObject *f_exc_type, *f_exc_value, *f_exc_traceback;
PyThreadState *f_tstate;
int f_lasti; /* Last instruction if called */
/* Call PyFrame_GetLineNumber() instead of reading this field
directly. As of 2.3 f_lineno is only valid when tracing is
active (i.e. when f_trace is set). At other times we use
PyCode_Addr2Line to calculate the line from the current
bytecode index. */
int f_lineno; /* Current line number */
int f_iblock; /* index in f_blockstack */
PyTryBlock f_blockstack[CO_MAXBLOCKS]; /* for try and loop blocks */
PyObject *f_localsplus[1]; /* locals+stack, dynamically sized */
} PyFrameObject;
棧幀保存了給出代碼的的信息和上下文����,其中包含最后執(zhí)行的指令,全局和局部命名空間���,異常狀態(tài)等信息�����。f_valueblock保存了數(shù)據(jù)�,b_blockstack保存了異常和循環(huán)控制方法�。
舉一個例子來說明,
def foo():
x = 1
def bar(y):
z = y + 2 #
那么���,相應(yīng)的調(diào)用棧如下��,一個py文件��,一個類�����,一個函數(shù)都是一個代碼塊��,對應(yīng)者一個Frame����,保存著上下文環(huán)境以及字節(jié)碼指令。
c ---------------------------
a | bar Frame | -> block stack: []
l | (newest) | -> data stack: [1, 2]
l ---------------------------
| foo Frame | -> block stack: []
s | | -> data stack: [.bar at 0x10d389680>, 1]
t ---------------------------
a | main (module) Frame | -> block stack: []
c | (oldest) | -> data stack: []
k ---------------------------
每一個棧幀都擁有自己的數(shù)據(jù)棧和block棧��,獨立的數(shù)據(jù)棧和block棧使得解釋器可以中斷和恢復(fù)棧幀(生成器正式利用這點)����。
Python代碼首先被編譯為字節(jié)碼,再由Python虛擬機(jī)來執(zhí)行���。一般來說�,一條Python語句對應(yīng)著多條字節(jié)碼(由于每條字節(jié)碼對應(yīng)著一條C語句�����,而不是一個機(jī)器指令�,所以不能按照字節(jié)碼的數(shù)量來判斷代碼性能)。
調(diào)用dis模塊可以分析字節(jié)碼�����,
from dis import dis
dis(foo)
5 0 LOAD_CONST 1 (1) # 加載常量1
3 STORE_FAST 0 (x) # x賦值為1
6 6 LOAD_CONST 2 (<code>) # 加載常量2
9 MAKE_FUNCTION 0 # 創(chuàng)建函數(shù)
12 STORE_FAST 1 (bar)
9 15 LOAD_FAST 1 (bar)
18 LOAD_FAST 0 (x)
21 CALL_FUNCTION 1 # 調(diào)用函數(shù)
24 RETURN_VALUE </code>
其中�,
第一行為代碼行號;
第二行為偏移地址����;
第三行為字節(jié)碼指令;
第四行為指令參數(shù)�;
第五行為參數(shù)解釋。
生成器源碼分析
由了上面對于調(diào)用棧的理解�,就可以很容易的明白生成器的具體實現(xiàn)。
生成器的源碼位于object/genobject.c�����。
生成器的創(chuàng)建
PyObject *
PyGen_New(PyFrameObject *f)
{
PyGenObject *gen = PyObject_GC_New(PyGenObject, &PyGen_Type); # 創(chuàng)建生成器對象
if (gen == NULL) {
Py_DECREF(f);
return NULL;
}
gen->gi_frame = f; # 賦予代碼塊
Py_INCREF(f->f_code); # 引用計數(shù)+1
gen->gi_code = (PyObject *)(f->f_code);
gen->gi_running = 0; # 0表示為執(zhí)行���,也就是生成器的初始狀態(tài)
gen->gi_weakreflist = NULL;
_PyObject_GC_TRACK(gen); # GC跟蹤
return (PyObject *)gen;
}
send與next
next與send函數(shù)�����,如下
static PyObject *
gen_iternext(PyGenObject *gen)
{
return gen_send_ex(gen, NULL, 0);
}
static PyObject *
gen_send(PyGenObject *gen, PyObject *arg)
{
return gen_send_ex(gen, arg, 0);
}
從上面的代碼中可以看到�����,send和next都是調(diào)用的同一函數(shù)gen_send_ex��,區(qū)別在于是否帶有參數(shù)��。
static PyObject *
gen_send_ex(PyGenObject *gen, PyObject *arg, int exc)
{
PyThreadState *tstate = PyThreadState_GET();
PyFrameObject *f = gen->gi_frame;
PyObject *result;
if (gen->gi_running) { # 判斷生成器是否已經(jīng)運行
PyErr_SetString(PyExc_ValueError,
"generator already executing");
return NULL;
}
if (f==NULL || f->f_stacktop == NULL) { # 如果代碼塊為空或調(diào)用棧為空�,則拋出StopIteration異常
/* Only set exception if called from send() */
if (arg && !exc)
PyErr_SetNone(PyExc_StopIteration);
return NULL;
}
if (f->f_lasti == -1) { # f_lasti=1 代表首次執(zhí)行
if (arg && arg != Py_None) { # 首次執(zhí)行不允許帶有參數(shù)
PyErr_SetString(PyExc_TypeError,
"can't send non-None value to a "
"just-started generator");
return NULL;
}
} else {
/* Push arg onto the frame's value stack */
result = arg ? arg : Py_None;
Py_INCREF(result); # 該參數(shù)引用計數(shù)+1
*(f->f_stacktop++) = result; # 參數(shù)壓棧
}
/* Generators always return to their most recent caller, not
* necessarily their creator. */
f->f_tstate = tstate;
Py_XINCREF(tstate->frame);
assert(f->f_back == NULL);
f->f_back = tstate->frame;
gen->gi_running = 1; # 修改生成器執(zhí)行狀態(tài)
result = PyEval_EvalFrameEx(f, exc); # 執(zhí)行字節(jié)碼
gen->gi_running = 0; # 恢復(fù)為未執(zhí)行狀態(tài)
/* Don't keep the reference to f_back any longer than necessary. It
* may keep a chain of frames alive or it could create a reference
* cycle. */
assert(f->f_back == tstate->frame);
Py_CLEAR(f->f_back);
/* Clear the borrowed reference to the thread state */
f->f_tstate = NULL;
/* If the generator just returned (as opposed to yielding), signal
* that the generator is exhausted. */
if (result == Py_None && f->f_stacktop == NULL) {
Py_DECREF(result);
result = NULL;
/* Set exception if not called by gen_iternext() */
if (arg)
PyErr_SetNone(PyExc_StopIteration);
}
if (!result || f->f_stacktop == NULL) {
/* generator can't be rerun, so release the frame */
Py_DECREF(f);
gen->gi_frame = NULL;
}
return result;
}
字節(jié)碼的執(zhí)行
PyEval_EvalFrameEx函數(shù)的功能為執(zhí)行字節(jié)碼并返回結(jié)果。
# 主要流程如下���,
for (;;) {
switch(opcode) { # opcode為操作碼�����,對應(yīng)著各種操作
case NOP:
goto fast_next_opcode;
...
...
case YIELD_VALUE: # 如果操作碼是yield
retval = POP();
f->f_stacktop = stack_pointer;
why = WHY_YIELD;
goto fast_yield; # 利用goto跳出循環(huán)
}
}
fast_yield:
...
return vetval; # 返回結(jié)果
舉一個例子����,f_back上一個Frame�����,f_lasti上一次執(zhí)行的指令的偏移量,
import sys
from dis import dis
def func():
f = sys._getframe(0)
print f.f_lasti
print f.f_back
yield 1
print f.f_lasti
print f.f_back
yield 2
a = func()
dis(func)
a.next()
a.next()
結(jié)果如下��,其中第三行的英文為操作碼�����,對應(yīng)著上面的opcode�,每次switch都是在不同的opcode之間進(jìn)行選擇����。
6 0 LOAD_GLOBAL 0 (sys)
3 LOAD_ATTR 1 (_getframe)
6 LOAD_CONST 1 (0)
9 CALL_FUNCTION 1
12 STORE_FAST 0 (f)
7 15 LOAD_FAST 0 (f)
18 LOAD_ATTR 2 (f_lasti)
21 PRINT_ITEM
22 PRINT_NEWLINE
8 23 LOAD_FAST 0 (f)
26 LOAD_ATTR 3 (f_back)
29 PRINT_ITEM
30 PRINT_NEWLINE
9 31 LOAD_CONST 2 (1)
34 YIELD_VALUE # 此時操作碼為YIELD_VALUE,直接跳轉(zhuǎn)上述goto語句���,此時f_lasti為當(dāng)前指令�����,f_back為當(dāng)前frame
35 POP_TOP
11 36 LOAD_FAST 0 (f)
39 LOAD_ATTR 2 (f_lasti)
42 PRINT_ITEM
43 PRINT_NEWLINE
12 44 LOAD_FAST 0 (f)
47 LOAD_ATTR 3 (f_back)
50 PRINT_ITEM
51 PRINT_NEWLINE
13 52 LOAD_CONST 3 (2)
55 YIELD_VALUE
56 POP_TOP
57 LOAD_CONST 0 (None)
60 RETURN_VALUE
18
<frame object at 0x7fa75fcebc20> #和下面的frame相同����,屬于同一個frame��,也就是說在同一個函數(shù)(命名空間)內(nèi)���,frame是同一個���。
39
<frame object at 0x7fa75fcebc20>
來源: cococo點點
http://www.cnblogs.com/coder2012/p/4990834.html
