Nếu bạn quan tâm đến hiệu suất (và tôi không đề xuất bạn nên), cách tiếp cận dựa trên thử là người chiến thắng rõ ràng (so với phương pháp dựa trên phân vùng của bạn hoặc phương pháp RegEXP), miễn là bạn không mong đợi nhiều Các chuỗi không hợp lệ, trong trường hợp đó nó có khả năng chậm hơn (có lẽ là do chi phí xử lý ngoại lệ). Một lần nữa, tôi không đề nghị bạn quan tâm đến hiệu suất, chỉ cung cấp cho bạn dữ liệu trong trường hợp bạn đang thực hiện việc này 10 tỷ lần một giây hoặc một cái gì đó. Ngoài ra, mã dựa trên phân vùng không xử lý ít nhất một chuỗi hợp lệ. $ ./floatstr.py
F..
partition sad: 3.1102449894
partition happy: 2.09208488464
..
re sad: 7.76906108856
re happy: 7.09421992302
..
try sad: 12.1525540352
try happy: 1.44165301323
.
======================================================================
FAIL: test_partition (__main__.ConvertTests)
----------------------------------------------------------------------
Traceback (most recent call last):
File "./floatstr.py", line 48, in test_partition
self.failUnless(is_float_partition("20e2"))
AssertionError
----------------------------------------------------------------------
Ran 8 tests in 33.670s
FAILED (failures=1)
Đây là mã (Python 2.6, RegEXP lấy từ câu trả lời của John Gietzen): def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
Python xác định các chức năng chuyển đổi loại để chuyển đổi trực tiếp một loại dữ liệu sang loại dữ liệu khác. Bài viết này nhằm mục đích cung cấp thông tin về việc chuyển đổi chuỗi thành float. Trong Python, chúng ta có thể sử dụng float () để chuyển đổi chuỗi thành float. và chúng ta có thể sử dụng int () để chuyển đổi chuỗi thành số nguyên.float() to convert String to float. and we can use
int() to convert String to an integer. Chương trình Python để phân tích một chuỗi vào một chiếc phaoHàm này được sử dụng để chuyển đổi bất kỳ loại dữ liệu nào thành số điểm nổi. Cú pháp của phao: float(x) Phương thức chỉ chấp nhận một tham số và đó cũng là tùy chọn để sử dụng. Nếu không có đối số được truyền thì phương thức trả về 0,0. Ví dụ 1: phân tích một chuỗi vào một chiếc phao
Trong ví dụ này, chúng tôi đang chuyển đổi chuỗi thành float. Python3string=
def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
0def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
2def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
5def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
6def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
7 = def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
9float(x) 0def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
7float(x) 4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
5def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
73.141
<type 'str'>
3.141
<type 'float'> 0Output: 3.141
<type 'str'>
3.141
<type 'float'> Ví dụ 2: Một chuỗi float số vào phaoTrong ví dụ này, chúng tôi cố gắng chuyển đổi một chuỗi thành một số nguyên và sau đó là một float. Trong đầu ra, chúng ta có thể thấy rằng chúng ta có thể convent một số float chuỗi vào một số nguyên, do đó, chúng ta sẽ gặp lỗi giá trị. Python33.141
<type 'str'>
3.141
<type 'float'> 1= 3.141
<type 'str'>
3.141
<type 'float'> 3def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
7 = def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
9def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
43.141
<type 'str'>
3.141
<type 'float'> 8def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
6def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
5def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
73.141
<type 'str'>
3.141
<type 'float'> 0def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4ValueError Traceback (most recent call last)
<ipython-input-4-8771a1bc4294> in <module>()
1 string = '55.567'
2
----> 3 Float = float(int(string))
4
5 print(type(Float))
ValueError: invalid literal for int() with base 10: '55.567'8ValueError Traceback (most recent call last)
<ipython-input-4-8771a1bc4294> in <module>()
1 string = '55.567'
2
----> 3 Float = float(int(string))
4
5 print(type(Float))
ValueError: invalid literal for int() with base 10: '55.567'9def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
7float(x) 4Output: ValueError Traceback (most recent call last)
<ipython-input-4-8771a1bc4294> in <module>()
1 string = '55.567'
2
----> 3 Float = float(int(string))
4
5 print(type(Float))
ValueError: invalid literal for int() with base 10: '55.567'Chương trình Python để phân tích một chuỗi vào intHàm này được sử dụng để chuyển đổi bất kỳ loại dữ liệu nào thành số nguyên. Cú pháp của int int() Ví dụ 1: phân tích một chuỗi thành một số nguyênTrong ví dụ này, chúng tôi đang chuyển đổi chuỗi thành số nguyên. Python33.141
<type 'str'>
3.141
<type 'float'> 1= int() 4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
7 = 3.141
<type 'str'>
3.141
<type 'float'> 8def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
2def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
5def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
73.141
<type 'str'>
3.141
<type 'float'> 0def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4ValueError Traceback (most recent call last)
<ipython-input-4-8771a1bc4294> in <module>()
1 string = '55.567'
2
----> 3 Float = float(int(string))
4
5 print(type(Float))
ValueError: invalid literal for int() with base 10: '55.567'8ValueError Traceback (most recent call last)
<ipython-input-4-8771a1bc4294> in <module>()
1 string = '55.567'
2
----> 3 Float = float(int(string))
4
5 print(type(Float))
ValueError: invalid literal for int() with base 10: '55.567'9__17Output: <class 'int'>
55567 Ví dụ 2: Một chuỗi nổi số vào một số nguyênTrong ví dụ này, chúng tôi cố gắng chuyển đổi chuỗi float thành float và sau đó thành số nguyên. Python3<class 'int'>
15 1= <class 'int'>
15 3‘ def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
4def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
5string3def is_float_try(str):
try:
float(str)
return True
except ValueError:
return False
import re
_float_regexp = re.compile(r"^[-+]?(?:\b[0-9]+(?:\.[0-9]*)?|\.[0-9]+\b)(?:[eE][-+]?[0-9]+\b)?$")
def is_float_re(str):
return re.match(_float_regexp, str)
def is_float_partition(element):
partition=element.partition('.')
if (partition[0].isdigit() and partition[1]=='.' and partition[2].isdigit()) or (partition[0]=='' and partition[1]=='.' and pa\
rtition[2].isdigit()) or (partition[0].isdigit() and partition[1]=='.' and partition[2]==''):
return True
if __name__ == '__main__':
import unittest
import timeit
class ConvertTests(unittest.TestCase):
def test_re(self):
self.failUnless(is_float_re("20e2"))
def test_try(self):
self.failUnless(is_float_try("20e2"))
def test_re_perf(self):
print
print 're sad:', timeit.Timer('floatstr.is_float_re("12.2x")', "import floatstr").timeit()
print 're happy:', timeit.Timer('floatstr.is_float_re("12.2")', "import floatstr").timeit()
def test_try_perf(self):
print
print 'try sad:', timeit.Timer('floatstr.is_float_try("12.2x")', "import floatstr").timeit()
print 'try happy:', timeit.Timer('floatstr.is_float_try("12.2")', "import floatstr").timeit()
def test_partition_perf(self):
print
print 'partition sad:', timeit.Timer('floatstr.is_float_partition("12.2x")', "import floatstr").timeit()
print 'partition happy:', timeit.Timer('floatstr.is_float_partition("12.2")', "import floatstr").timeit()
def test_partition(self):
self.failUnless(is_float_partition("20e2"))
def test_partition2(self):
self.failUnless(is_float_partition(".2"))
def test_partition3(self):
self.failIf(is_float_partition("1234x.2"))
unittest.main()
1string5Output: <class 'int'>
15
Tại sao tôi không thể chuyển đổi một chuỗi thành một chiếc phao trong Python?
Python "valueError: Không thể chuyển đổi chuỗi thành float" xảy ra khi chúng ta chuyển một chuỗi không thể chuyển đổi thành một float (ví dụ: một chuỗi trống hoặc một chuỗi chứa các ký tự) sang lớp float (). Để giải quyết lỗi, xóa tất cả các ký tự không cần thiết khỏi chuỗi.remove all unnecessary characters from the string.
Bạn có thể chuyển đổi chuỗi thành int hoặc float không?
Trong Python, bạn có thể chuyển đổi một chuỗi str thành int số nguyên và số điểm nổi nổi với int () và float ().Bài viết này mô tả các nội dung sau đây.Sử dụng str () để chuyển đổi số số nguyên hoặc dấu nổi thành một chuỗi.Bạn cũng có thể chuyển đổi một danh sách các chuỗi thành một danh sách các số.you can convert a string str to an integer int and a floating point number float with int() and float() . This article describes the following contents. Use str() to convert an integer or floating point number to a string. You can also convert a list of strings to a list of numbers.
Chuỗi có thể được chuyển đổi thành số nguyên trong Python không?
Để chuyển đổi hoặc đúc, một chuỗi thành một số nguyên trong Python, bạn sử dụng hàm tích hợp int ().Hàm nhận được như một tham số, chuỗi ban đầu bạn muốn chuyển đổi và trả về số nguyên tương đương với giá trị bạn đã vượt qua.you use the int() built-in function. The function takes in as a parameter the initial string you want to convert, and returns the integer equivalent of the value you passed.
Bạn có thể chuyển đổi một chiếc phao thành một chuỗi không?
Để chuyển đổi float thành chuỗi, hãy sử dụng phương thức toString ().Nó đại diện cho một giá trị trong một chuỗi.use the toString() method. It represents a value in a string. |
