Showing 4,191 of 4,191 total issues
Either merge this branch with the identical one on line "126" or change one of the implementations. Open
word = 'RR' + word[2:]- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Either merge this branch with the identical one on line "217" or change one of the implementations. Open
word = word[:i] + word[i - 1] + word[i + 1 :]- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Either merge this branch with the identical one on line "295" or change one of the implementations. Open
primary, secondary = _metaph_add('K')
current += 2
continue- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Refactor this function to reduce its Cognitive Complexity from 28 to the 15 allowed. Open
def encode(self, word: str) -> str:- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Either merge this branch with the identical one on line "311" or change one of the implementations. Open
lokal_ordet = 'K' + lokal_ordet[1:]- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Remove this commented out code. Open
# Ashkenazic = Argentina- Read upRead up
- Exclude checks
Programmers should not comment out code as it bloats programs and reduces readability.
Unused code should be deleted and can be retrieved from source control history if required.
See
- MISRA C:2004, 2.4 - Sections of code should not be "commented out".
- MISRA C++:2008, 2-7-2 - Sections of code shall not be "commented out" using C-style comments.
- MISRA C++:2008, 2-7-3 - Sections of code should not be "commented out" using C++ comments.
- MISRA C:2012, Dir. 4.4 - Sections of code should not be "commented out"
Either merge this branch with the identical one on line "166" or change one of the implementations. Open
continue- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Refactor this function to reduce its Cognitive Complexity from 19 to the 15 allowed. Open
def sim_matrix(- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Either merge this branch with the identical one on line "113" or change one of the implementations. Open
if len(word[r1_start:]) >= 2:
word = word[:-2]- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Refactor this function to reduce its Cognitive Complexity from 85 to the 15 allowed. Open
def stem(self, word: str) -> str:- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Refactor this function to reduce its Cognitive Complexity from 51 to the 15 allowed. Open
def _apply_final_rules(- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Merge this if statement with the enclosing one. Open
if (- Read upRead up
- Exclude checks
Merging collapsible if statements increases the code's readability.
Noncompliant Code Example
if condition1:
if condition2:
# ...
Compliant Solution
if condition1 and condition2:
# ...
Refactor this function to reduce its Cognitive Complexity from 73 to the 15 allowed. Open
def encode(self, word: str) -> str:- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Refactor this function to reduce its Cognitive Complexity from 26 to the 15 allowed. Open
def encode(self, word: Union[str, Sequence[str]]) -> str:- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Refactor this function to reduce its Cognitive Complexity from 127 to the 15 allowed. Open
def fingerprint_tuple(- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Refactor this function to reduce its Cognitive Complexity from 32 to the 15 allowed. Open
def _edit_with_moves(self, src: str, tar: str) -> int:- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.
See
Either merge this branch with the identical one on line "290" or change one of the implementations. Open
if self._m_degree(word[:-5]) > 0:
word = word[:-2]- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Either merge this branch with the identical one on line "348" or change one of the implementations. Open
if self._m_degree(word[:-2]) > 1:
word = word[:-2]- Read upRead up
- Exclude checks
Having two branches in the same if structure with the same implementation is at best duplicate code, and at worst a coding error. If
the same logic is truly needed for both instances, then they should be combined.
Noncompliant Code Example
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_thing() # Noncompliant; duplicates first condition
else:
do_the_rest()
b = 4 if a > 12 else 4
Compliant Solution
if (0 <= a < 10) or (20 <= a < 50):
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
else:
do_the_rest()
b = 4
or
if 0 <= a < 10:
do_the_thing()
elif 10 <= a < 20:
do_the_other_thing()
elif 20 <= a < 50:
do_the_third_thing()
else:
do_the_rest()
b = 8 if a > 12 else 4
Merge this if statement with the enclosing one. Open
if self._m_degree(word[:-4]) > 0:- Read upRead up
- Exclude checks
Merging collapsible if statements increases the code's readability.
Noncompliant Code Example
if condition1:
if condition2:
# ...
Compliant Solution
if condition1 and condition2:
# ...
Refactor this function to reduce its Cognitive Complexity from 82 to the 15 allowed. Open
def stem(self, word: str) -> str:- Read upRead up
- Exclude checks
Cognitive Complexity is a measure of how hard the control flow of a function is to understand. Functions with high Cognitive Complexity will be difficult to maintain.