AUTOSAR C++14

Perforce QAC for C++ 2026.1

(AUTOSAR C++14 'Guidelines for the use of the C++14 language in critical and safety-related systems', document identification number 839, which is part of the AUTOSAR AP 18-10 release published October 2018)

Rule Enforcement Summary

		Total
a	Total Number of Rules	397
b	Total Number of 'Not Statically Enforceable' Rules (Assisted/Unassisted)	48
c	Total Number of Enforceable Rules (a-b)	349
d	Total Number of Enforced Rules	335
e	Total Number of Unenforced Rules (c-d)	14
f	Enforced Rules Percentage (d/c)	96%
g	Unenforced Rules Percentage (e/c)	4%

 

Id	Description	Enforced
A0-1-1	A project shall not contain instances of non-volatile variables being given values that are not subsequently used.	Yes
A0-1-2	The value returned by a function having a non-void return type that is not an overloaded operator shall be used.	Yes
A0-1-3	Every function defined in an anonymous namespace, or static function with internal linkage, or private member function shall be used.	Yes
A0-1-4	There shall be no unused named parameters in non-virtual functions.	Yes
A0-1-5	There shall be no unused named parameters in the set of parameters for a virtual function and all the functions that override it.	Yes
A0-1-6	There should be no unused type declarations.	Yes
A0-4-2	Type long double shall not be used.	Yes
A0-4-4	Range, domain and pole errors shall be checked when using math functions.	No
A1-1-1	All code shall conform to ISO/IEC 14882:2014 - Programming Language C++ and shall not use deprecated features.	Yes
A1-4-3	All code should compile free of compiler warnings.	Yes
A2-3-1	Only those characters specified in the C++ Language Standard basic source character set shall be used in the source code.	Yes
A2-5-1	Trigraphs shall not be used.	Yes
A2-5-2	Digraphs shall not be used.	Yes
A2-7-1	The character \ shall not occur as a last character of a C++ comment.	Yes
A2-7-3	All declarations of "user-defined" types, static and non-static data members, functions and methods shall be preceded by documentation.	Yes
A2-10-1	An identifier declared in an inner scope shall not hide an identifier declared in an outer scope.	Yes
A2-10-4	The identifier name of a non-member object with static storage duration or static function shall not be reused within a namespace.	Yes
A2-10-5	An identifier name of a function with static storage duration or a non-member object with external or internal linkage should not be reused.	Yes
A2-10-6	A class or enumeration name shall not be hidden by a variable, function or enumerator declaration in the same scope.	Yes
A2-11-1	Volatile keyword shall not be used.	Yes
A2-13-1	Only those escape sequences that are defined in ISO/IEC 14882:2014 shall be used.	Yes
A2-13-2	String literals with different encoding prefixes shall not be concatenated.	Yes
A2-13-3	Type wchar_t shall not be used.	Yes
A2-13-4	String literals shall not be assigned to non-constant pointers.	Yes
A2-13-5	Hexadecimal constants should be upper case.	Yes
A2-13-6	Universal character names shall be used only inside character or string literals.	Yes
A3-1-1	It shall be possible to include any header file in multiple translation units without violating the One Definition Rule.	Yes
A3-1-2	Header files, that are defined locally in the project, shall have a file name extension of one of: ".h", ".hpp" or ".hxx".	Yes
A3-1-3	Implementation files, that are defined locally in the project, should have a file name extension of ".cpp".	Yes
A3-1-4	When an array with external linkage is declared, its size shall be stated explicitly.	Yes
A3-1-5	A function definition shall only be placed in a class definition if (1) the function is intended to be inlined (2) it is a member function template (3) it is a member function of a class template.	Yes
A3-1-6	Trivial accessor and mutator functions should be inlined.	Yes
A3-3-1	Objects or functions with external linkage (including members of named namespaces) shall be declared in a header file.	Yes
A3-3-2	Static and thread-local objects shall be constant-initialized.	Yes
A3-9-1	Fixed width integer types from <cstdint>, indicating the size and signedness, shall be used in place of the basic numerical types.	Yes
A4-5-1	Expressions with type enum or enum class shall not be used as operands to built-in and overloaded operators other than the subscript operator [ ], the assignment operator =, the equality operators == and !=, the unary & operator, and the relational operators <, <=, >, >=.	Yes
A4-7-1	An integer expression shall not lead to data loss.	Yes
A4-10-1	Only nullptr literal shall be used as the null-pointer-constant.	Yes
A5-0-1	The value of an expression shall be the same under any order of evaluation that the standard permits.	Yes
A5-0-2	The condition of an if-statement and the condition of an iteration statement shall have type bool.	Yes
A5-0-3	The declaration of objects shall contain no more than two levels of pointer indirection.	Yes
A5-0-4	Pointer arithmetic shall not be used with pointers to non-final classes.	Yes
A5-1-1	Literal values shall not be used apart from type initialization, otherwise symbolic names shall be used instead.	Yes
A5-1-2	Variables shall not be implicitly captured in a lambda expression.	Yes
A5-1-3	Parameter list (possibly empty) shall be included in every lambda expression.	Yes
A5-1-4	A lambda expression object shall not outlive any of its reference-captured objects.	Yes
A5-1-6	Return type of a non-void return type lambda expression should be explicitly specified.	Yes
A5-1-7	The underlying type of lambda expression shall not be used.	Yes
A5-1-8	Lambda expressions should not be defined inside another lambda expression.	Yes
A5-1-9	Identical unnamed lambda expressions shall be replaced with a named function or a named lambda expression.	No
A5-2-1	dynamic_cast should not be used.	Yes
A5-2-2	Traditional C-style casts shall not be used.	Yes
A5-2-3	A cast shall not remove any const or volatile qualification from the type of a pointer or reference.	Yes
A5-2-4	reinterpret_cast shall not be used.	Yes
A5-2-5	An array or container shall not be accessed beyond its range.	Yes
A5-2-6	The operands of a logical && or || shall be parenthesized if the operands contain binary operators.	Yes
A5-3-2	Null pointers shall not be dereferenced.	Yes
A5-3-3	Pointers to incomplete class types shall not be deleted.	Yes
A5-5-1	A pointer to member shall not access non-existent class members.	Yes
A5-6-1	The right hand operand of the integer division or remainder operators shall not be equal to zero.	Yes
A5-10-1	A pointer to member virtual function shall only be tested for equality with null-pointer-constant.	Yes
A5-16-1	The ternary conditional operator shall not be used as a sub-expression.	Yes
A6-2-1	Move and copy assignment operators shall either move or respectively copy base classes and data members of a class, without any side effects.	Yes
A6-2-2	Expression statements shall not be explicit calls to constructors of temporary objects only.	Yes
A6-4-1	A switch statement shall have at least two case-clauses, distinct from the default label.	Yes
A6-5-1	A for-loop that loops through all elements of the container and does not use its loop-counter shall not be used.	Yes
A6-5-2	A for loop shall contain a single loop-counter which shall not have floating-point type.	Yes
A6-5-3	Do statements should not be used.	Yes
A6-5-4	For-init-statement and expression should not perform actions other than loop-counter initialization and modification.	Yes
A6-6-1	The goto statement shall not be used.	Yes
A7-1-1	Constexpr or const specifiers shall be used for immutable data declaration.	Yes
A7-1-2	The constexpr specifier shall be used for values that can be determined at compile time.	Yes
A7-1-3	CV-qualifiers shall be placed on the right hand side of the type that is a typedef or a using name.	Yes
A7-1-4	The register keyword shall not be used.	Yes
A7-1-5	The auto specifier shall not be used apart from following cases: (1) to declare that a variable has the same type as return type of a function call, (2) to declare that a variable has the same type as initializer of non-fundamental type, (3) to declare parameters of a generic lambda expression, (4) to declare a function template using trailing return type syntax.	Yes
A7-1-6	The typedef specifier shall not be used.	Yes
A7-1-7	Each expression statement and identifier declaration shall be placed on a separate line.	Yes
A7-1-8	A non-type specifier shall be placed before a type specifier in a declaration.	Yes
A7-1-9	A class, structure, or enumeration shall not be declared in the definition of its type.	Yes
A7-2-1	An expression with enum underlying type shall only have values corresponding to the enumerators of the enumeration.	Yes
A7-2-2	Enumeration underlying base type shall be explicitly defined.	Yes
A7-2-3	Enumerations shall be declared as scoped enum classes.	Yes
A7-2-4	In an enumeration, either (1) none, (2) the first or (3) all enumerators shall be initialized.	Yes
A7-3-1	All overloads of a function shall be visible from where it is called.	Yes
A7-4-1	The asm declaration shall not be used.	Yes
A7-5-1	A function shall not return a reference or a pointer to a parameter that is passed by reference to const.	Yes
A7-5-2	Functions shall not call themselves, either directly or indirectly.	Yes
A7-6-1	Functions declared with the [[noreturn]] attribute shall not return.	Yes
A8-2-1	When declaring function templates, the trailing return type syntax shall be used if the return type depends on the type of parameters.	Yes
A8-4-1	Functions shall not be defined using the ellipsis notation.	Yes
A8-4-2	All exit paths from a function with non-void return type shall have an explicit return statement with an expression.	Yes
A8-4-4	Multiple output values from a function should be returned as a struct or tuple.	Yes
A8-4-5	"consume" parameters declared as X && shall always be moved from.	Yes
A8-4-6	"forward" parameters declared as T && shall always be forwarded.	Yes
A8-4-7	"in" parameters for "cheap to copy" types shall be passed by value.	Yes
A8-4-8	Output parameters shall not be used.	Yes
A8-4-9	"in-out" parameters declared as T & shall be modified.	Yes
A8-4-10	A parameter shall be passed by reference if it can't be NULL	Yes
A8-4-11	A smart pointer shall only be used as a parameter type if it expresses lifetime semantics	No
A8-4-12	A std::unique_ptr shall be passed to a function as: (1) a copy to express the function assumes ownership (2) an lvalue reference to express that the function replaces the managed object.	Yes
A8-4-13	A std::shared_ptr shall be passed to a function as: (1) a copy to express the function shares ownership (2) an lvalue reference to express that the function replaces the managed object (3) a const lvalue reference to express that the function retains a reference count.	No
A8-5-0	All memory shall be initialized before it is read.	Yes
A8-5-1	In an initialization list, the order of initialization shall be following: (1) virtual base classes in depth and left to right order of the inheritance graph, (2) direct base classes in left to right order of inheritance list, (3) non-static data members in the order they were declared in the class definition.	Yes
A8-5-2	Braces shall be used to indicate and match the structure in the non-zero initialization of arrays and structures.	Yes
A8-5-3	A variable of type auto shall not be initialized using {} or ={} braced-initialization.	Yes
A8-5-4	If a class has a user-declared constructor that takes a parameter of type std::initializer_list, then it shall be the only constructor apart from special member function constructors.	Yes
A9-3-1	Member functions shall not return non-const "raw" pointers or references to private or protected data owned by the class.	Yes
A9-5-1	Unions shall not be used.	Yes
A9-6-1	Data types used for interfacing with hardware or conforming to communication protocols shall be trivial, standard-layout and only contain members of types with defined sizes.	Yes
A10-1-1	Class shall not be derived from more than one base class which is not an interface class.	Yes
A10-2-1	Non-virtual public or protected member functions shall not be redefined in derived classes.	Yes
A10-3-1	Virtual function declaration shall contain exactly one of the three specifiers: (1) virtual, (2) override, (3) final.	Yes
A10-3-2	Each overriding virtual function shall be declared with the override or final specifier.	Yes
A10-3-3	Virtual functions shall not be introduced in a final class.	Yes
A10-3-5	A user-defined assignment operator shall not be virtual.	Yes
A11-0-1	A non-POD type should be defined as class.	Yes
A11-0-2	A type defined as struct shall: (1) provide only public data members, (2) not provide any special member functions or methods, (3) not be a base of another struct or class, (4) not inherit from another struct or class.	Yes
A11-3-1	Friend declarations shall not be used.	Yes
A12-0-1	If a class declares a copy or move operation, or a destructor, either via "=default", "=delete", or via a user-provided declaration, then all others of these five special member functions shall be declared as well.	Yes
A12-0-2	Bitwise operations and operations that assume data representation in memory shall not be performed on objects.	Yes
A12-1-1	Constructors shall explicitly initialize all virtual base classes, all direct non-virtual base classes and all non-static data members.	Yes
A12-1-2	Both NSDMI and a non-static member initializer in a constructor shall not be used in the same type.	Yes
A12-1-3	If all user-defined constructors of a class initialize data members with constant values that are the same across all constructors, then data members shall be initialized using NSDMI instead.	Yes
A12-1-4	All constructors that are callable with a single argument of fundamental type shall be declared explicit.	Yes
A12-1-5	Common class initialization for non-constant members shall be done by a delegating constructor.	Yes
A12-1-6	Derived classes that do not need further explicit initialization and require all the constructors from the base class shall use inheriting constructors.	Yes
A12-4-1	Destructor of a base class shall be public virtual, public override or protected non-virtual.	Yes
A12-4-2	If a public destructor of a class is non-virtual, then the class should be declared final.	Yes
A12-6-1	All class data members that are initialized by the constructor shall be initialized using member initializers.	Yes
A12-7-1	If the behavior of a user-defined special member function is identical to implicitly defined special member function, then it shall be defined "=default" or be left undefined.	Yes
A12-8-1	Move and copy constructors shall move and respectively copy base classes and data members of a class, without any side effects.	Yes
A12-8-2	User-defined copy and move assignment operators should use user-defined no-throw swap function.	Yes
A12-8-3	Moved-from object shall not be read-accessed.	Yes
A12-8-4	Move constructor shall not initialize its class members and base classes using copy semantics.	Yes
A12-8-5	A copy assignment and a move assignment operators shall handle self-assignment.	Yes
A12-8-6	Copy and move constructors and copy assignment and move assignment operators shall be declared protected or defined "=delete" in base class.	Yes
A12-8-7	Assignment operators should be declared with the ref-qualifier &.	Yes
A13-1-2	User defined suffixes of the user defined literal operators shall start with underscore followed by one or more letters.	Yes
A13-1-3	User defined literals operators shall only perform conversion of passed parameters.	Yes
A13-2-1	An assignment operator shall return a reference to "this".	Yes
A13-2-2	A binary arithmetic operator and a bitwise operator shall return a "prvalue".	Yes
A13-2-3	A relational operator shall return a boolean value.	Yes
A13-3-1	A function that contains "forwarding reference" as its argument shall not be overloaded.	Yes
A13-5-1	If "operator[]" is to be overloaded with a non-const version, const version shall also be implemented.	Yes
A13-5-2	All user-defined conversion operators shall be defined explicit.	Yes
A13-5-3	User-defined conversion operators should not be used.	Yes
A13-5-4	If two opposite operators are defined, one shall be defined in terms of the other.	Yes
A13-5-5	Comparison operators shall be non-member functions with identical parameter types and noexcept.	Yes
A13-6-1	Digit sequences separators ' shall only be used as follows: (1) for decimal, every 3 digits, (2) for hexadecimal, every 2 digits, (3) for binary, every 4 digits.	Yes
A14-5-1	A template constructor shall not participate in overload resolution for a single argument of the enclosing class type.	Yes
A14-5-2	Class members that are not dependent on template class parameters should be defined in a separate base class.	No
A14-5-3	A non-member generic operator shall only be declared in a namespace that does not contain class (struct) type, enum type or union type declarations.	Yes
A14-7-1	A type used as a template argument shall provide all members that are used by the template.	No
A14-7-2	Template specialization shall be declared in the same file (1) as the primary template (2) as a user-defined type, for which the specialization is declared.	Yes
A14-8-2	Explicit specializations of function templates shall not be used.	Yes
A15-0-2	At least the basic guarantee for exception safety shall be provided for all operations. In addition, each function may offer either the strong guarantee or the nothrow guarantee	No
A15-1-1	Only instances of types derived from std::exception should be thrown.	Yes
A15-1-2	An exception object shall not be a pointer.	Yes
A15-1-3	All thrown exceptions should be unique.	No
A15-1-4	If a function exits with an exception, then before a throw, the function shall place all objects/resources that the function constructed in valid states or it shall delete them.	Yes
A15-2-1	Constructors that are not noexcept shall not be invoked before program startup.	Yes
A15-2-2	If a constructor is not noexcept and the constructor cannot finish object initialization, then it shall deallocate the object's resources and it shall throw an exception.	No
A15-3-3	Main function and a task main function shall catch at least: base class exceptions from all third-party libraries used, std::exception and all otherwise unhandled exceptions.	Yes
A15-3-5	A class type exception shall be caught by reference or const reference.	Yes
A15-4-1	Dynamic exception-specification shall not be used.	Yes
A15-4-2	If a function is declared to be noexcept, noexcept(true) or noexcept(<true condition>), then it shall not exit with an exception.	Yes
A15-4-3	The noexcept specification of a function shall either be identical across all translation units, or identical or more restrictive between a virtual member function and an overrider.	Yes
A15-4-4	A declaration of non-throwing function shall contain noexcept specification.	Yes
A15-4-5	Checked exceptions that could be thrown from a function shall be specified together with the function declaration and they shall be identical in all function declarations and for all its overriders.	No
A15-5-1	All user-provided class destructors, deallocation functions,move constructors, move assignment operators and swap functions shall not exit with an exception. A noexcept exception specification shall be added to these functions as appropriate.	Yes
A15-5-2	Program shall not be abruptly terminated. In particular, an implicit or explicit invocation of std::abort(), std::quick_exit(), std::_Exit(), std::terminate() shall not be done.	Yes
A15-5-3	The std::terminate() function shall not be called implicitly.	Yes
A16-0-1	The pre-processor shall only be used for unconditional and conditional file inclusion and include guards, and using the following directives: (1) #ifndef, (2) #ifdef, (3) #if, (4) #if defined, (5) #elif, (6) #else, (7) #define, (8) #endif, (9) #include.	Yes
A16-2-1	The ', ", /*, //, \ characters shall not occur in a header file name or in #include directive.	Yes
A16-2-2	There shall be no unused include directives.	Yes
A16-6-1	#error directive shall not be used.	Yes
A16-7-1	The #pragma directive shall not be used.	Yes
A17-0-1	Reserved identifiers, macros and functions in the C++ standard library shall not be defined, redefined or undefined.	Yes
A17-6-1	Non-standard entities shall not be added to standard namespaces.	Yes
A18-0-1	The C library facilities shall only be accessed through C++ library headers.	Yes
A18-0-2	The error state of a conversion from string to a numeric value shall be checked.	Yes
A18-0-3	The library <clocale> (locale.h) and the setlocale function shall not be used.	Yes
A18-1-1	C-style arrays shall not be used.	Yes
A18-1-2	The std::vector<bool> specialization shall not be used.	Yes
A18-1-3	The std::auto_ptr type shall not be used.	Yes
A18-1-4	A pointer pointing to an element of an array of objects shall not be passed to a smart pointer of single object type.	Yes
A18-1-6	All std::hash specializations for user-defined types shall have a noexcept function call operator.	Yes
A18-5-1	Functions malloc, calloc, realloc and free shall not be used.	Yes
A18-5-2	Non-placement new or delete expressions shall not be used.	Yes
A18-5-3	The form of the delete expression shall match the form of the new expression used to allocate the memory.	Yes
A18-5-4	If a project has sized or unsized version of operator "delete" globally defined, then both sized and unsized versions shall be defined.	Yes
A18-5-5	Memory management functions shall ensure the following: (a) deterministic behavior resulting with the existence of worst-case execution time, (b) avoiding memory fragmentation, (c) avoid running out of memory, (d) avoiding mismatched allocations or deallocations, (e) no dependence on non-deterministic calls to kernel.	Yes
A18-5-8	Objects that do not outlive a function shall have automatic storage duration.	Yes
A18-5-9	Custom implementations of dynamic memory allocation and deallocation functions shall meet the semantic requirements specified in the corresponding "Required behaviour" clause from the C++ Standard.	Yes
A18-5-10	Placement new shall be used only with properly aligned pointers to sufficient storage capacity.	Yes
A18-5-11	"operator new" and "operator delete" shall be defined together.	Yes
A18-9-1	The std::bind shall not be used.	Yes
A18-9-2	Forwarding values to other functions shall be done via: (1) std::move if the value is an rvalue reference, (2) std::forward if the value is forwarding reference.	Yes
A18-9-3	The std::move shall not be used on objects declared const or const&.	Yes
A18-9-4	An argument to std::forward shall not be subsequently used.	Yes
A20-8-1	An already-owned pointer value shall not be stored in an unrelated smart pointer.	Yes
A20-8-2	A std::unique_ptr shall be used to represent exclusive ownership.	No
A20-8-3	A std::shared_ptr shall be used to represent shared ownership.	No
A20-8-4	A std::unique_ptr shall be used over std::shared_ptr if ownership sharing is not required.	No
A20-8-5	std::make_unique shall be used to construct objects owned by std::unique_ptr.	Yes
A20-8-6	std::make_shared shall be used to construct objects owned by std::shared_ptr.	Yes
A21-8-1	Arguments to character-handling functions shall be representable as an unsigned char.	Yes
A23-0-1	An iterator shall not be implicitly converted to const_iterator.	Yes
A23-0-2	Elements of a container shall only be accessed via valid references, iterators, and pointers.	Yes
A25-1-1	Non-static data members or captured values of predicate function objects that are state related to this object's identity shall not be copied.	No
A26-5-1	Pseudorandom numbers shall not be generated using std::rand().	Yes
A26-5-2	Random number engines shall not be default-initialized.	Yes
A27-0-2	A C-style string shall guarantee sufficient space for data and the null terminator.	Yes
A27-0-3	Alternate input and output operations on a file stream shall not be used without an intervening flush or positioning call.	Yes
A27-0-4	C-style strings shall not be used.	Yes
M0-1-1	A project shall not contain unreachable code.	Yes
M0-1-2	A project shall not contain infeasible paths.	Yes
M0-1-3	A project shall not contain unused variables.	Yes
M0-1-4	A project shall not contain non-volatile POD variables having only one use.	Yes
M0-1-8	All functions with void return type shall have external side effect(s).	Yes
M0-1-9	There shall be no dead code.	Yes
M0-1-10	Every defined function should be called at least once.	Yes
M0-2-1	An object shall not be assigned to an overlapping object.	Yes
M2-7-1	The character sequence /* shall not be used within a C-style comment.	Yes
M2-10-1	Different identifiers shall be typographically unambiguous.	Yes
M2-13-2	Octal constants (other than zero) and octal escape sequences (other than "\0" ) shall not be used.	Yes
M2-13-3	A "U" suffix shall be applied to all octal or hexadecimal integer literals of unsigned type.	Yes
M2-13-4	Literal suffixes shall be upper case.	Yes
M3-1-2	Functions shall not be declared at block scope.	Yes
M3-2-1	All declarations of an object or function shall have compatible types.	Yes
M3-2-2	The One Definition Rule shall not be violated.	Yes
M3-2-3	A type, object or function that is used in multiple translation units shall be declared in one and only one file.	Yes
M3-2-4	An identifier with external linkage shall have exactly one definition.	Yes
M3-3-2	If a function has internal linkage then all re-declarations shall include the static storage class specifier.	Yes
M3-4-1	An identifier declared to be an object or type shall be defined in a block that minimizes its visibility.	Yes
M3-9-1	The types used for an object, a function return type, or a function parameter shall be token-for-token identical in all declarations and re-declarations.	Yes
M3-9-3	The underlying bit representations of floating-point values shall not be used.	Yes
M4-5-1	Expressions with type bool shall not be used as operands to built-in operators other than the assignment operator =, the logical operators &&, ||, !, the equality operators == and !=, the unary & operator, and the conditional operator.	Yes
M4-5-3	Expressions with type (plain) char and wchar_t shall not be used as operands to built-in operators other than the assignment operator =, the equality operators == and !=, and the unary & operator.	Yes
M4-10-1	NULL shall not be used as an integer value.	Yes
M4-10-2	Literal zero (0) shall not be used as the null-pointer-constant.	Yes
M5-0-2	Limited dependence should be placed on C++ operator precedence rules in expressions.	Yes
M5-0-3	A cvalue expression shall not be implicitly converted to a different underlying type.	Yes
M5-0-4	An implicit integral conversion shall not change the signedness of the underlying type.	Yes
M5-0-5	There shall be no implicit floating-integral conversions.	Yes
M5-0-6	An implicit integral or floating-point conversion shall not reduce the size of the underlying type.	Yes
M5-0-7	There shall be no explicit floating-integral conversions of a cvalue expression.	Yes
M5-0-8	An explicit integral or floating-point conversion shall not increase the size of the underlying type of a cvalue expression.	Yes
M5-0-9	An explicit integral conversion shall not change the signedness of the underlying type of a cvalue expression.	Yes
M5-0-10	If the bitwise operators ~ and << are applied to an operand with an underlying type of unsigned char or unsigned short, the result shall be immediately cast to the underlying type of the operand.	Yes
M5-0-11	The plain char type shall only be used for the storage and use of character values.	Yes
M5-0-12	Signed char and unsigned char type shall only be used for the storage and use of numeric values.	Yes
M5-0-14	The first operand of a conditional-operator shall have type bool.	Yes
M5-0-15	Array indexing shall be the only form of pointer arithmetic.	Yes
M5-0-16	A pointer operand and any pointer resulting from pointer arithmetic using that operand shall both address elements of the same array.	Yes
M5-0-17	Subtraction between pointers shall only be applied to pointers that address elements of the same array.	Yes
M5-0-18	>, >=, <, <= shall not be applied to objects of pointer type, except where they point to the same array.	Yes
M5-0-20	Non-constant operands to a binary bitwise operator shall have the same underlying type.	Yes
M5-0-21	Bitwise operators shall only be applied to operands of unsigned underlying type.	Yes
M5-2-2	A pointer to a virtual base class shall only be cast to a pointer to a derived class by means of dynamic_cast.	Yes
M5-2-3	Casts from a base class to a derived class should not be performed on polymorphic types.	Yes
M5-2-6	A cast shall not convert a pointer to a function to any other pointer type, including a pointer to function type.	Yes
M5-2-8	An object with integer type or pointer to void type shall not be converted to an object with pointer type.	Yes
M5-2-9	A cast shall not convert a pointer type to an integral type.	Yes
M5-2-10	The increment (++) and decrement (-) operators shall not be mixed with other operators in an expression.	Yes
M5-2-11	The comma operator, && operator and the ||operator shall not be overloaded.	Yes
M5-2-12	An identifier with array type passed as a function argument shall not decay to a pointer.	Yes
M5-3-1	Each operand of the ! operator, the logical && or the logical ||operators shall have type bool.	Yes
M5-3-2	The unary minus operator shall not be applied to an expression whose underlying type is unsigned.	Yes
M5-3-3	The unary & operator shall not be overloaded.	Yes
M5-3-4	Evaluation of the operand to the sizeof operator shall not contain side effects.	Yes
M5-8-1	The right hand operand of a shift operator shall lie between zero and one less than the width in bits of the underlying type of the left hand operand.	Yes
M5-14-1	The right hand operand of a logical && or ||operator shall not contain side effects.	Yes
M5-18-1	The comma operator shall not be used.	Yes
M5-19-1	Evaluation of constant unsigned integer expressions shall not lead to wrap-around.	Yes
M6-2-1	Assignment operators shall not be used in sub-expressions.	Yes
M6-2-2	Floating-point expressions shall not be directly or indirectly tested for equality or inequality.	Yes
M6-2-3	Before preprocessing, a null statement shall only occur on a line by itself; it may be followed by a comment, provided that the first character following the null statement is a white-space character.	Yes
M6-3-1	The statement forming the body of a switch, while, do ... while or for statement shall be a compound statement.	Yes
M6-4-1	An if ( condition ) construct shall be followed by a compound statement. The else keyword shall be followed by either a compound statement, or another if statement.	Yes
M6-4-2	All if ... else if constructs shall be terminated with an else clause.	Yes
M6-4-3	A switch statement shall be a well-formed switch statement.	Yes
M6-4-4	A switch-label shall only be used when the most closely-enclosing compound statement is the body of a switch statement.	Yes
M6-4-5	An unconditional throw or break statement shall terminate every non-empty switchclause.	Yes
M6-4-6	The final clause of a switch statement shall be the default-clause.	Yes
M6-4-7	The condition of a switch statement shall not have bool type.	Yes
M6-5-2	If loop-counter is not modified by or ++, then, within condition, the loop-counter shall only be used as an operand to <=, <, > or >=.	Yes
M6-5-3	The loop-counter shall not be modified within condition or statement.	Yes
M6-5-4	The loop-counter shall be modified by one of: -, ++, -=n, or +=n; where n remains constant for the duration of the loop.	Yes
M6-5-5	A loop-control-variable other than the loop-counter shall not be modified within condition or expression.	Yes
M6-5-6	A loop-control-variable other than the loop-counter which is modified in statement shall have type bool.	Yes
M6-6-1	Any label referenced by a goto statement shall be declared in the same block, or in a block enclosing the goto statement.	Yes
M6-6-2	The goto statement shall jump to a label declared later in the same function body.	Yes
M6-6-3	The continue statement shall only be used within a well-formed for loop.	Yes
M7-1-2	A pointer or reference parameter in a function shall be declared as pointer to const or reference to const if the corresponding object is not modified.	Yes
M7-3-1	The global namespace shall only contain main, namespace declarations and extern "C" declarations.	Yes
M7-3-2	The identifier main shall not be used for a function other than the global function main.	Yes
M7-3-3	There shall be no unnamed namespaces in header files.	Yes
M7-3-4	Using-directives shall not be used.	Yes
M7-3-6	Using-directives and using-declarations (excluding class scope or function scope using-declarations) shall not be used in header files.	Yes
M7-4-2	Assembler instructions shall only be introduced using the asm declaration.	Yes
M7-4-3	Assembly language shall be encapsulated and isolated.	Yes
M8-0-1	An init-declarator-list or a member-declarator-list shall consist of a single initdeclarator or member-declarator respectively.	Yes
M8-3-1	Parameters in an overriding virtual function shall either use the same default arguments as the function they override, or else shall not specify any default arguments.	Yes
M8-4-2	The identifiers used for the parameters in a re-declaration of a function shall be identical to those in the declaration.	Yes
M8-4-4	A function identifier shall either be used to call the function or it shall be preceded by &.	Yes
M8-5-2	Braces shall be used to indicate and match the structure in the non-zero initialization of arrays and structures.	Yes
M9-3-1	Const member functions shall not return non-const pointers or references to classdata.	Yes
M9-3-3	If a member function can be made static then it shall be made static, otherwise if it can be made const then it shall be made const.	Yes
M9-6-4	Named bit-fields with signed integer type shall have a length of more than one bit.	Yes
M10-1-1	Classes should not be derived from virtual bases.	Yes
M10-1-2	A base class shall only be declared virtual if it is used in a diamond hierarchy.	Yes
M10-1-3	An accessible base class shall not be both virtual and non-virtual in the same hierarchy.	Yes
M10-2-1	All accessible entity names within a multiple inheritance hierarchy should be unique.	Yes
M10-3-3	A virtual function shall only be overridden by a pure virtual function if it is itself declared as pure virtual.	Yes
M11-0-1	Member data in non-POD class types shall be private.	Yes
M12-1-1	An object's dynamic type shall not be used from the body of its constructor or destructor.	Yes
M14-5-3	A copy assignment operator shall be declared when there is a template assignment operator with a parameter that is a generic parameter.	Yes
M14-6-1	In a class template with a dependent base, any name that may be found in that dependent base shall be referred to using a qualified-id or this->.	Yes
M15-0-3	Control shall not be transferred into a try or catch block using a goto or a switch statement.	Yes
M15-1-1	The assignment-expression of a throw statement shall not itself cause an exception to be thrown.	Yes
M15-1-2	NULL shall not be thrown explicitly.	Yes
M15-1-3	An empty throw (throw;) shall only be used in the compound statement of a catch handler.	Yes
M15-3-1	Exceptions shall be raised only after start-up and before termination.	Yes
M15-3-3	Handlers of a function-try-block implementation of a class constructor or destructor shall not reference non-static members from this class or its bases.	Yes
M15-3-4	Each exception explicitly thrown in the code shall have a handler of a compatible type in all call paths that could lead to that point.	Yes
M15-3-6	Where multiple handlers are provided in a single try-catch statement or function-try-block for a derived class and some or all of its bases, the handlers shall be ordered most-derived to base class.	Yes
M15-3-7	Where multiple handlers are provided in a single try-catch statement or function-try-block, any ellipsis (catch-all) handler shall occur last.	Yes
M16-0-1	#include directives in a file shall only be preceded by other pre-processor directives or comments.	Yes
M16-0-2	Macros shall only be #define'd or #undef'd in the global namespace.	Yes
M16-0-5	Arguments to a function-like macro shall not contain tokens that look like preprocessing directives.	Yes
M16-0-6	In the definition of a function-like macro, each instance of a parameter shall be enclosed in parentheses, unless it is used as the operand of # or ##.	Yes
M16-0-7	Undefined macro identifiers shall not be used in #if or #elif pre-processor directives, except as operands to the defined operator.	Yes
M16-0-8	If the # token appears as the first token on a line, then it shall be immediately followed by a pre-processing token.	Yes
M16-1-1	The defined pre-processor operator shall only be used in one of the two standard forms.	Yes
M16-1-2	All #else, #elif and #endif pre-processor directives shall reside in the same file as the #if or #ifdef directive to which they are related.	Yes
M16-2-3	Include guards shall be provided.	Yes
M16-3-1	There shall be at most one occurrence of the # or ## operators in a single macro definition.	Yes
M16-3-2	The # and ## operators should not be used.	Yes
M17-0-2	The names of standard library macros and objects shall not be reused.	Yes
M17-0-3	The names of standard library functions shall not be overridden.	Yes
M17-0-5	The setjmp macro and the longjmp function shall not be used.	Yes
M18-0-3	The library functions abort, exit, getenv and system from library <cstdlib> shall not be used.	Yes
M18-0-4	The time handling functions of library <ctime> shall not be used.	Yes
M18-0-5	The unbounded functions of library <cstring> shall not be used.	Yes
M18-2-1	The macro offsetof shall not be used.	Yes
M18-7-1	The signal handling facilities of <csignal> shall not be used.	Yes
M19-3-1	The error indicator errno shall not be used.	Yes
M27-0-1	The stream input/output library <cstdio> shall not be used.	Yes

Not Statically Enforceable Rules

 

Id	Description	Assisted
A0-4-1	Floating-point implementation shall comply with IEEE 754 standard.	Unassisted
A0-4-3	The implementations in the chosen compiler shall strictly comply with the C++14 Language Standard.	Assisted
A1-1-2	A warning level of the compilation process shall be set in compliance with project policies.	Unassisted
A1-1-3	An optimization option that disregards strict standard compliance shall not be turned on in the chosen compiler.	Unassisted
A1-2-1	When using a compiler toolchain (including preprocessor, compiler itself, linker, C++ standard libraries) in safety-related software, the tool confidence level (TCL) shall be determined. In case of TCL2 or TCL3, the compiler shall undergo a "Qualification of a software tool", as per ISO 26262-8.11.4.6.	Unassisted
A1-4-1	Code metrics and their valid boundaries shall be defined and code shall comply with defined boundaries of code metrics.	Unassisted
A2-7-2	Sections of code shall not be "commented out".	Assisted
A2-7-5	Comments shall not document any actions or sources (e.g. tables, figures, paragraphs, etc.) that are outside of the file.	Unassisted
A2-8-1	A header file name should reflect the logical entity for which it provides declarations.	Assisted
A2-8-2	An implementation file name should reflect the logical entity for which it provides definitions.	Unassisted
A3-8-1	An object shall not be accessed outside of its lifetime.	Assisted
A5-3-1	Evaluation of the operand to the typeid operator shall not contain side effects.	Assisted
A7-2-5	Enumerations should be used to represent sets of related named constants.	Unassisted
A8-4-3	Common ways of passing parameters should be used.	Unassisted
A8-4-14	Interfaces shall be precisely and strongly typed.	Unassisted
A9-6-2	Bit-fields shall be used only when interfacing to hardware or conforming to communication protocols.	Unassisted
A10-0-1	Public inheritance shall be used to implement "is-a" relationship.	Unassisted
A10-0-2	Membership or non-public inheritance shall be used to implement "has-a" relationship.	Unassisted
A10-4-1	Hierarchies should be based on interface classes.	Unassisted
A14-1-1	A template should check if a specific template argument is suitable for this template.	Unassisted
A15-0-1	A function shall not exit with an exception if it is able to complete its task.	Unassisted
A15-0-3	Exception safety guarantee of a called function shall be considered.	Unassisted
A15-0-4	Unchecked exceptions shall be used to represent errors from which the caller cannot reasonably be expected to recover.	Unassisted
A15-0-5	Checked exceptions shall be used to represent errors from which the caller can reasonably be expected to recover.	Unassisted
A15-0-6	An analysis shall be performed to analyze the failure modes of exception handling. In particular, the following failure modes shall be analyzed: (a) worst time execution time not existing or cannot be determined, (b) stack not correctly unwound, (c) exception not thrown, other exception thrown, wrong catch activated, (d) memory not available while exception handling.	Unassisted
A15-0-7	Exception handling mechanism shall guarantee a deterministic worst-case time execution time.	Unassisted
A15-0-8	A worst-case execution time (WCET) analysis shall be performed to determine maximum execution time constraints of the software, covering in particular the exceptions processing.	Unassisted
A15-1-5	Exceptions shall not be thrown across execution boundaries.	Unassisted
A15-3-2	If a function throws an exception, it shall be handled when meaningful actions can be taken, otherwise it shall be propagated.	Unassisted
A15-3-4	Catch-all (ellipsis and std::exception) handlers shall be used only in (a) main, (b) task main functions, (c) in functions that are supposed to isolate independent components and (d) when calling third-party code that uses exceptions not according to AUTOSAR C++14 guidelines.	Unassisted
A16-2-3	An include directive shall be added explicitly for every symbol used in a file.	Unassisted
A17-0-2	All project's code including used libraries (including standard and user-defined libraries) and any third-party user code shall conform to the AUTOSAR C++14 Coding Guidelines.	Unassisted
A17-1-1	Use of the C Standard Library shall be encapsulated and isolated.	Unassisted
A18-5-6	An analysis shall be performed to analyze the failure modes of dynamic memory management. In particular, the following failure modes shall be analyzed: (a) non-deterministic behavior resulting with nonexistence of worst-case execution time, (b) memory fragmentation, (c) running out of memory, (d) mismatched allocations and deallocations, (e) dependence on non-deterministic calls to kernel.	Unassisted
A18-5-7	If non-realtime implementation of dynamic memory management functions is used in the project, then memory shall only be allocated and deallocated during non-realtime program phases.	Unassisted
A20-8-7	A std::weak_ptr shall be used to represent temporary shared ownership.	Unassisted
A25-4-1	Ordering predicates used with associative containers and STL sorting and related algorithms shall adhere to a strict weak ordering relation.	Assisted
A27-0-1	Inputs from independent components shall be validated.	Unassisted
M0-3-1	Minimization of run-time failures shall be ensured by the use of at least one of: (a) static analysis tools/techniques; (b) dynamic analysis tools/techniques; (c) explicit coding of checks to handle run-time faults.	Assisted
M0-3-2	If a function generates error information, then that error information shall be tested.	Assisted
M0-4-1	Use of scaled-integer or fixed-point arithmetic shall be documented.	Unassisted
M0-4-2	Use of floating-point arithmetic shall be documented.	Assisted
M1-0-2	Multiple compilers shall only be used if they have a common, defined interface.	Unassisted
M5-17-1	The semantic equivalence between a binary operator and its assignment operator form shall be preserved.	Assisted
M7-4-1	All usage of assembler shall be documented.	Assisted
M7-5-1	A function shall not return a reference or a pointer to an automatic variable (including parameters), defined within the function.	Assisted
M7-5-2	The address of an object with automatic storage shall not be assigned to another object that may persist after the first object has ceased to exist.	Assisted
M9-6-1	When the absolute positioning of bits representing a bit-field is required, then the behaviour and packing of bit-fields shall be documented.	Unassisted