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	c:Parasoft_Vc:
	Parasoft_V

Checker	Guideline
CERT_C-API00-a	API00-C. Functions should validate their parameters
CERT_C-API01-a	API01-C. Avoid laying out strings in memory directly before sensitive data
CERT_C-API01-b	API01-C. Avoid laying out strings in memory directly before sensitive data
CERT_C-API02-a	API02-C. Functions that read or write to or from an array should take an argument to specify the source or target size
CERT_C-API02-b	API02-C. Functions that read or write to or from an array should take an argument to specify the source or target size
CERT_C-ARR01-a	ARR01-C. Do not apply the sizeof operator to a pointer when taking the size of an array
CERT_C-ARR02-a	ARR02-C. Explicitly specify array bounds, even if implicitly defined by an initializer
CERT_C-ARR30-a	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
CERT_C-ARR32-a	ARR32-C. Ensure size arguments for variable length arrays are in a valid range
CERT_C-ARR36-a	ARR36-C. Do not subtract or compare two pointers that do not refer to the same array
CERT_C-ARR36-b	ARR36-C. Do not subtract or compare two pointers that do not refer to the same array
CERT_C-ARR37-a	ARR37-C. Do not add or subtract an integer to a pointer to a non-array object
CERT_C-ARR38-a	ARR38-C. Guarantee that library functions do not form invalid pointers
CERT_C-ARR38-b	ARR38-C. Guarantee that library functions do not form invalid pointers
CERT_C-ARR38-c	ARR38-C. Guarantee that library functions do not form invalid pointers
CERT_C-ARR38-d	ARR38-C. Guarantee that library functions do not form invalid pointers
CERT_C-ARR39-a	ARR39-C. Do not add or subtract a scaled integer to a pointer
CERT_C-ARR39-b	ARR39-C. Do not add or subtract a scaled integer to a pointer
CERT_C-ARR39-c	ARR39-C. Do not add or subtract a scaled integer to a pointer
CERT_C-CON01-a	CON01-C. Acquire and release synchronization primitives in the same module, at the same level of abstraction
CERT_C-CON02-a	CON02-C. Do not use volatile as a synchronization primitive
CERT_C-CON05-a	CON05-C. Do not perform operations that can block while holding a lock
CERT_C-CON30-a	CON30-C. Clean up thread-specific storage
CERT_C-CON31-a	CON31-C. Do not destroy a mutex while it is locked
CERT_C-CON31-b	CON31-C. Do not destroy a mutex while it is locked
CERT_C-CON31-c	CON31-C. Do not destroy a mutex while it is locked
CERT_C-CON32-a	CON32-C. Prevent data races when accessing bit-fields from multiple threads
CERT_C-CON33-a	CON33-C. Avoid race conditions when using library functions
CERT_C-CON34-a	CON34-C. Declare objects shared between threads with appropriate storage durations
CERT_C-CON35-a	CON35-C. Avoid deadlock by locking in a predefined order
CERT_C-CON36-a	CON36-C. Wrap functions that can spuriously wake up in a loop
CERT_C-CON37-a	CON37-C. Do not call signal() in a multithreaded program
CERT_C-CON38-a	CON38-C. Preserve thread safety and liveness when using condition variables
CERT_C-CON39-a	CON39-C. Do not join or detach a thread that was previously joined or detached
CERT_C-CON40-a	CON40-C. Do not refer to an atomic variable twice in an expression
CERT_C-CON41-a	CON41-C. Wrap functions that can fail spuriously in a loop
CERT_C-CON43-a	CON43-C. Do not allow data races in multithreaded code
CERT_C-DCL00-a	DCL00-C. Const-qualify immutable objects
CERT_C-DCL00-b	DCL00-C. Const-qualify immutable objects
CERT_C-DCL01-a	DCL01-C. Do not reuse variable names in subscopes
CERT_C-DCL01-b	DCL01-C. Do not reuse variable names in subscopes
CERT_C-DCL02-a	DCL02-C. Use visually distinct identifiers
CERT_C-DCL04-a	DCL04-C. Do not declare more than one variable per declaration
CERT_C-DCL05-a	DCL05-C. Use typedefs of non-pointer types only
CERT_C-DCL06-a	DCL06-C. Use meaningful symbolic constants to represent literal values
CERT_C-DCL12DCL10-a	DCL12 DCL10-C. Implement abstract data types using opaque types Maintain the contract between the writer and caller of variadic functions
CERT_C-DCL13DCL11-a	DCL13 DCL11-C. Declare function parameters that are pointers to values not changed by the function as const Understand the type issues associated with variadic functions
CERT_C-DCL15DCL11-a b	DCL15 DCL11-C. Declare file-scope objects or functions that do not need external linkage as static Understand the type issues associated with variadic functions
CERT_C-DCL16DCL11-a c DCL16	DCL11-C. Use "L," not "l," to indicate a long value Understand the type issues associated with variadic functions
CERT_C-DCL18DCL11-a d	DCL18 DCL11-C. Do not begin integer constants with 0 when specifying a decimal value Understand the type issues associated with variadic functions
CERT_C-DCL18DCL11-b e	DCL18 DCL11-C. Do not begin integer constants with 0 when specifying a decimal value Understand the type issues associated with variadic functions
CERT_C-DCL19DCL11-a f	DCL19 DCL11-C. Minimize the scope of variables and Understand the type issues associated with variadic functions
CERT_C-DCL20DCL12-a DCL20	DCL12-C. Explicitly specify void when a function accepts no arguments Implement abstract data types using opaque types
CERT_C-DCL22DCL13-a	DCL22 DCL13-C. Use volatile for data that cannot be cached Declare function parameters that are pointers to values not changed by the function as const
CERT_C-DCL30DCL15-a	DCL30 DCL15-C. Declare objects with appropriate storage durations file-scope objects or functions that do not need external linkage as static
CERT_C-DCL30DCL16-b a	DCL30 DCL16-C. Declare objects with appropriate storage durations Use "L," not "l," to indicate a long value
CERT_C-DCL31DCL18-a	DCL31 DCL18-C. Declare identifiers before using them Do not begin integer constants with 0 when specifying a decimal value
CERT_C-DCL36DCL18-a b	DCL36 DCL18-C. Do not declare an identifier with conflicting linkage classifications begin integer constants with 0 when specifying a decimal value
CERT_C-DCL37DCL19-a DCL37	DCL19-C. Do not declare or define a reserved identifier Minimize the scope of variables and functions
CERT_C-DCL38DCL20-a	DCL38 DCL20-C. Use the correct syntax when declaring a flexible array member Explicitly specify void when a function accepts no arguments
CERT_C-DCL39DCL22-a DCL39	DCL22-C. Avoid information leakage when passing a structure across a trust boundary Use volatile for data that cannot be cached
CERT_C-DCL40DCL30-a	DCL40 DCL30-C. Do not create incompatible declarations of the same function or object Declare objects with appropriate storage durations
CERT_C-DCL40DCL30-b	DCL40 DCL30-C. Do not create incompatible declarations of the same function or object Declare objects with appropriate storage durations
CERT_C-DCL41DCL31-a	DCL41 DCL31-C. Do not declare variables inside a switch statement before the first case label Declare identifiers before using them
CERT_C-ENV01DCL36-a	ENV01 DCL36-C. Do not make assumptions about the size of an environment variable declare an identifier with conflicting linkage classifications
CERT_C-ENV01DCL37-b a	ENV01 DCL37-C. Do not make assumptions about the size of an environment variable declare or define a reserved identifier
CERT_C-ENV01DCL38-c a	ENV01 DCL38-C. Do not make assumptions about the size of an environment variable Use the correct syntax when declaring a flexible array member
CERT_C-ENV02DCL39-a	ENV02 DCL39-C. Beware of multiple environment variables with the same effective name Avoid information leakage when passing a structure across a trust boundary
CERT_C-ENV30DCL40-a	ENV30 DCL40-C. Do not modify the object referenced by the return value of certain functions create incompatible declarations of the same function or object
CERT_C-ENV31DCL40-a b	ENV31 DCL40-C. Do not rely on an environment pointer following an operation that may invalidate it create incompatible declarations of the same function or object
CERT_C-ENV32DCL41-a	ENV32 DCL41-C. All exit handlers must return normally Do not declare variables inside a switch statement before the first case label
CERT_C-ENV33ENV01-a	ENV33 ENV01-C. Do not call system() make assumptions about the size of an environment variable
CERT_C-ENV33ENV01-b	ENV33 ENV01-C. Do not call system() make assumptions about the size of an environment variable
CERT_C-ENV34ENV01-a c	ENV34 ENV01-C. Do not store pointers returned by certain functions make assumptions about the size of an environment variable
CERT_C-ERR04ENV02-a	ERR04 ENV02-C. Choose an appropriate termination strategy Beware of multiple environment variables with the same effective name
CERT_C-ERR05ENV30-a	ERR05 ENV30-C. Application-independent code should provide error detection without dictating error handling Do not modify the object referenced by the return value of certain functions
CERT_C-ERR07ENV31-a	ERR07 ENV31-C. Prefer functions that support error checking over equivalent functions that don't Do not rely on an environment pointer following an operation that may invalidate it
CERT_C-ERR30ENV32-a ERR30	ENV32-C. Set errno to zero before calling a library function known to set errno, and check errno only after the function returns a value indicating failure All exit handlers must return normally
CERT_C-ERR30ENV33-b a ERR30	ENV33-C. Set errno to zero before calling a library function known to set errno, and check errno only after the function returns a value indicating failure Do not call system()
CERT_C-ERR32ENV34-a	ERR32 ENV34-C. Do not rely on indeterminate values of errno store pointers returned by certain functions
CERT_C-ERR33ERR01-a	ERR33 ERR01-C. Detect and handle standard library Use ferror() rather than errno to check for FILE stream errors
CERT_C-ERR33ERR02-b a	ERR33 ERR02-C. Detect and handle standard library errors Avoid in-band error indicators
CERT_C-ERR33ERR04-c a	ERR33 ERR04-C. Detect and handle standard library errors Choose an appropriate termination strategy
CERT_C-ERR33ERR04-d b	ERR33 ERR04-C. Detect and handle standard library errors Choose an appropriate termination strategy
CERT_C-ERR34ERR04-a c	ERR34 ERR04-C. Detect errors when converting a string to a number Choose an appropriate termination strategy
CERT_C-EXP00ERR05-a	EXP00 ERR05-C. Use parentheses for precedence of operation Application-independent code should provide error detection without dictating error handling
CERT_C-EXP02ERR05-a b	EXP02 ERR05-C. Be aware of the short-circuit behavior of the logical AND and OR operators Application-independent code should provide error detection without dictating error handling
CERT_C-EXP05ERR05-a c EXP05	ERR05-C. Do not cast away a const qualification Application-independent code should provide error detection without dictating error handling
CERT_C-EXP08ERR06-a	EXP08 ERR06-C. Ensure pointer arithmetic is used correctly Understand the termination behavior of assert() and abort()
CERT_C-EXP08ERR07-b a	EXP08 ERR07-C. Ensure pointer arithmetic is used correctly Prefer functions that support error checking over equivalent functions that don't
CERT_C-EXP10ERR07-a b	ERR07-C. Prefer functions that support error checking over equivalent functions that don't
CERT_C-ERR30-a	ERR30-C. Take care when reading errno EXP10-C. Do not depend on the order of evaluation of subexpressions or the order in which side effects take place
CERT_C-EXP10ERR30-b	EXP10 ERR30-C. Do not depend on the order of evaluation of subexpressions or the order in which side effects take place Take care when reading errno
CERT_C-EXP10ERR32-c a	EXP10 ERR32-C. Do not depend rely on the order of evaluation of subexpressions or the order in which side effects take place indeterminate values of errno
CERT_C-EXP10ERR33-d a	EXP10 ERR33-C. Do not depend on the order of evaluation of subexpressions or the order in which side effects take place Detect and handle standard library errors
CERT_C-EXP12ERR33-a b	EXP12 ERR33-C. Do not ignore values returned by functions Detect and handle standard library errors
CERT_C-EXP12ERR33-b d	EXP12 ERR33-C. Do not ignore values returned by functions Detect and handle standard library errors
CERT_C-EXP14ERR34-a	EXP14 ERR34-C. Beware of integer promotion when performing bitwise operations on integer types smaller than int Detect errors when converting a string to a number
CERT_C-EXP16EXP00-a	EXP16 EXP00-C. Do not compare function pointers to constant values Use parentheses for precedence of operation
CERT_C-EXP19EXP02-a	EXP19 EXP02-C. Use braces for the body of an if, for, or while statement Be aware of the short-circuit behavior of the logical AND and OR operators
CERT_C-EXP20EXP05-a	EXP20 EXP05-C. Perform explicit tests to determine success, true and false, and equality Do not cast away a const qualification
CERT_C-EXP30EXP08-a	EXP30 EXP08-C. Ensure pointer arithmetic is used correctly
CERT_C-EXP08-b	EXP08-C. Ensure pointer arithmetic is used correctly
CERT_C-EXP10-a	EXP10-C. Do Do not depend on the order of evaluation for of subexpressions or the order in which side effects take place
CERT_C-EXP30EXP10-b	EXP30 EXP10-C. Do not depend on the order of evaluation for of subexpressions or the order in which side effects take place
CERT_C-EXP30EXP10-c	EXP30 EXP10-C. Do not depend on the order of evaluation for of subexpressions or the order in which side effects take place
CERT_C-EXP30EXP10-d	EXP30 EXP10-C. Do not depend on the order of evaluation for of subexpressions or the order in which side effects take place
CERT_C-EXP32EXP12-a	EXP32 EXP12-C. Do not access a volatile object through a nonvolatile reference ignore values returned by functions
CERT_C-EXP33EXP12-a b	EXP33 EXP12-C. Do not read uninitialized memory ignore values returned by functions
CERT_C-EXP34EXP14-a	EXP34 EXP14-C. Do not dereference null pointers Beware of integer promotion when performing bitwise operations on integer types smaller than int
CERT_C-EXP35EXP15-a	EXP35 EXP15-C. Do not modify objects with temporary lifetime place a semicolon on the same line as an if, for, or while statement
CERT_C-EXP36EXP16-a	EXP36 EXP16-C. Do not cast pointers into more strictly aligned pointer types compare function pointers to constant values
CERT_C-EXP37EXP19-a	EXP37 EXP19-C. Call functions with the correct number and type of arguments Use braces for the body of an if, for, or while statement
CERT_C-EXP37EXP20-b a	EXP37 EXP20-C. Call functions with the correct number and type of arguments Perform explicit tests to determine success, true and false, and equality
CERT_C-EXP37EXP20-c b	EXP37 EXP20-C. Call functions with the correct number and type of arguments Perform explicit tests to determine success, true and false, and equality
CERT_C-EXP37EXP30-d a	EXP37 EXP30-C. Call functions with the correct number and type of arguments Do not depend on the order of evaluation for side effects
CERT_C-EXP39EXP30-a b	EXP39 EXP30-C. Do not access a variable through a pointer of an incompatible type depend on the order of evaluation for side effects
CERT_C-EXP39EXP30-b c	EXP39 EXP30-C. Do not access a variable through a pointer of an incompatible type depend on the order of evaluation for side effects
CERT_C-EXP39EXP30-c d	EXP39 EXP30-C. Do not access a variable through a pointer of an incompatible type depend on the order of evaluation for side effects
CERT_C-EXP39EXP32-d a	EXP39 EXP32-C. Do not access a variable volatile object through a pointer of an incompatible type nonvolatile reference
CERT_C-EXP39EXP33-e a	EXP39 EXP33-C. Do not access a variable through a pointer of an incompatible type read uninitialized memory
CERT_C-EXP39EXP34-f a	EXP39 EXP34-C. Do not access a variable through a pointer of an incompatible type dereference null pointers
CERT_C-EXP40EXP35-a	EXP40 EXP35-C. Do not modify constant objects with temporary lifetime
CERT_C-EXP42EXP36-a	EXP42 EXP36-C. Do not compare padding data cast pointers into more strictly aligned pointer types
CERT_C-EXP43EXP37-a	EXP43 EXP37-C. Avoid undefined behavior when using restrict-qualified pointers Call functions with the correct number and type of arguments
CERT_C-EXP44EXP37-a b	EXP44 EXP37-C. Do not rely on side effects in operands to sizeof, _Alignof, or _Generic Call functions with the correct number and type of arguments
CERT_C-EXP44EXP37-b d	EXP44 EXP37-C. Do not rely on side effects in operands to sizeof, _Alignof, or _Generic Call functions with the correct number and type of arguments
CERT_C-EXP45EXP39-a	EXP45 EXP39-C. Do not perform assignments in selection statements access a variable through a pointer of an incompatible type
CERT_C-EXP45EXP39-b	EXP45 EXP39-C. Do not perform assignments in selection statements access a variable through a pointer of an incompatible type
CERT_C-EXP45EXP39-c	EXP45 EXP39-C. Do not perform assignments in selection statements access a variable through a pointer of an incompatible type
CERT_C-EXP45EXP39-d	EXP45 EXP39-C. Do not perform assignments in selection statements access a variable through a pointer of an incompatible type
CERT_C-EXP46EXP39-a e	EXP46 EXP39-C. Do not use a bitwise operator with a Boolean-like operand access a variable through a pointer of an incompatible type
CERT_C-EXP46EXP39-b f	EXP46 EXP39-C. Do not use a bitwise operator with a Boolean-like operand access a variable through a pointer of an incompatible type
CERT_C-EXP47EXP40-a	EXP47 EXP40-C. Do not call va_arg with an argument of the incorrect type modify constant objects
CERT_C-FIO01EXP42-a	FIO01 EXP42-C. Be careful using functions that use file names for identification Do not compare padding data
CERT_C-FIO01EXP43-b a	FIO01 EXP43-C. Be careful using functions that use file names for identification Avoid undefined behavior when using restrict-qualified pointers
CERT_C-FIO21EXP44-a	FIO21 EXP44-C. Do not create temporary files in shared directories rely on side effects in operands to sizeof, _Alignof, or _Generic
CERT_C-FIO30EXP44-a b	FIO30 EXP44-C. Exclude user input from format strings Do not rely on side effects in operands to sizeof, _Alignof, or _Generic
CERT_C-FIO30EXP45-b	FIO30 EXP45-C. Exclude user input from format strings Do not perform assignments in selection statements
CERT_C-FIO30EXP45-c d	FIO30 EXP45-C. Exclude user input from format strings Do not perform assignments in selection statements
CERT_C-FIO34EXP46-a b	FIO34 EXP46-C. Distinguish between characters read from a file and EOF or WEOF Do not use a bitwise operator with a Boolean-like operand
CERT_C-FIO37EXP47-a	FIO37 EXP47-C. Do not assume that fgets() or fgetws() returns a nonempty string when successful call va_arg with an argument of the incorrect type
CERT_C-FIO01-a	FIO01-C. Be careful using functions that use file names for identification
CERT_C-FIO38FIO01-a b FIO38	FIO01-C. Do not copy a FILE object Be careful using functions that use file names for identification
CERT_C-FIO39FIO21-a	FIO39 FIO21-C. Do not alternately input and output from a stream without an intervening flush or positioning call create temporary files in shared directories
CERT_C-FIO40FIO22-a	FIO40 FIO22-C. Reset strings on fgets() or fgetws() failure Close files before spawning processes
CERT_C-FIO41FIO24-a	FIO41 FIO24-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects open a file that is already open
CERT_C-FIO41FIO30-b a FIO41	FIO30-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects Exclude user input from format strings
CERT_C-FIO41FIO30-c b	FIO41 FIO30-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects
CERT_C-FIO41-d	FIO41-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects
CERT_C-FIO41-e	FIO41-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects
CERT_C-FIO42-a	FIO42-C. Close files when they are no longer needed
CERT_C-FIO44-a	FIO44-C. Only use values for fsetpos() that are returned from fgetpos()
CERT_C-FIO45-a	FIO45-C. Avoid TOCTOU race conditions while accessing files
CERT_C-FIO46-a	FIO46-C. Do not access a closed file
CERT_C-FIO47-a	FIO47-C. Use valid format strings
CERT_C-FIO47-b	FIO47-C. Use valid format strings
CERT_C-FIO47-c	FIO47-C. Use valid format strings
CERT_C-FIO47-d	FIO47-C. Use valid format strings
CERT_C-FIO47-e	FIO47-C. Use valid format strings
CERT_C-FIO47-f	FIO47-C. Use valid format strings
CERT_C-FLP00-a	FLP00-C. Understand the limitations of floating-point numbers
CERT_C-FLP02-a	FLP02-C. Avoid using floating-point numbers when precise computation is needed
CERT_C-FLP03-a	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP03-b	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP03-c	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP03-d	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP06-a	FLP06-C. Convert integers to floating point for floating-point operations
CERT_C-FLP06-b	FLP06-C. Convert integers to floating point for floating-point operations
CERT_C-FLP30-a	FLP30-C. Do not use floating-point variables as loop counters
CERT_C-FLP32-a	FLP32-C. Prevent or detect domain and range errors in math functions
CERT_C-FLP34-a	FLP34-C. Ensure that floating-point conversions are within range of the new type
CERT_C-FLP36-a	FLP36-C. Preserve precision when converting integral values to floating-point type
CERT_C-FLP36-b	FLP36-C. Preserve precision when converting integral values to floating-point type
CERT_C-FLP37-a	FLP37-C. Do not use object representations to compare floating-point values
CERT_C-FLP37-b	FLP37-C. Do not use object representations to compare floating-point values
CERT_C-FLP37-c	FLP37-C. Do not use object representations to compare floating-point values
CERT_C-INT02-a	INT02-C. Understand integer conversion rules
CERT_C-INT02-b	INT02-C. Understand integer conversion rules
CERT_C-INT04-a	INT04-C. Enforce limits on integer values originating from tainted sources
CERT_C-INT04-b	INT04-C. Enforce limits on integer values originating from tainted sources
CERT_C-INT04-c	INT04-C. Enforce limits on integer values originating from tainted sources
CERT_C-INT05-a	INT05-C. Do not use input functions to convert character data if they cannot handle all possible inputs
CERT_C-INT07-a	INT07-C. Use only explicitly signed or unsigned char type for numeric values
CERT_C-INT07-b	INT07-C. Use only explicitly signed or unsigned char type for numeric values
CERT_C-INT09-a	INT09-C. Ensure enumeration constants map to unique values
CERT_C-INT10-a	INT10-C. Do not assume a positive remainder when using the % operator
CERT_C-INT12-a	INT12-C. Do not make assumptions about the type of a plain int bit-field when used in an expression
CERT_C-INT13-a	INT13-C. Use bitwise operators only on unsigned operands
CERT_C-INT16-a	INT16-C. Do not make assumptions about representation of signed integers
CERT_C-INT18-a	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
CERT_C-INT18-b	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
CERT_C-INT18-c	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
CERT_C-INT30-a	INT30-C. Ensure that unsigned integer operations do not wrap
CERT_C-INT30-b	INT30-C. Ensure that unsigned integer operations do not wrap
CERT_C-INT30-c	INT30-C. Ensure that unsigned integer operations do not wrap
Exclude user input from format strings
CERT_C-FIO30-c	FIO30-C. Exclude user input from format strings
CERT_C-FIO32-a	FIO32-C. Do not perform operations on devices that are only appropriate for files
CERT_C-FIO34-a	FIO34-C. Distinguish between characters read from a file and EOF or WEOF
CERT_C-FIO37-a	FIO37-C. Do not assume that fgets() or fgetws() returns a nonempty string when successful
CERT_C-FIO38-a	FIO38-C. Do not copy a FILE object
CERT_C-FIO39-a	FIO39-C. Do not alternately input and output from a stream without an intervening flush or positioning call
CERT_C-FIO40-a	FIO40-C. Reset strings on fgets() or fgetws() failure
CERT_C-FIO41-a	FIO41-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects
CERT_C-FIO41-b	FIO41-C. Do not call getc(), putc(), getwc(), or putwc() with a stream argument that has side effects
CERT_C-FIO42-a	FIO42-C. Close files when they are no longer needed
CERT_C-FIO44-a	FIO44-C. Only use values for fsetpos() that are returned from fgetpos()
CERT_C-FIO45-a	FIO45-C. Avoid TOCTOU race conditions while accessing files
CERT_C-FIO46-a	FIO46-C. Do not access a closed file
CERT_C-FIO47-a	FIO47-C. Use valid format strings
CERT_C-FIO47-b	FIO47-C. Use valid format strings
CERT_C-FIO47-c	FIO47-C. Use valid format strings
CERT_C-FIO47-d	FIO47-C. Use valid format strings
CERT_C-FIO47-e	FIO47-C. Use valid format strings
CERT_C-FIO47-f	FIO47-C. Use valid format strings
CERT_C-FLP00-a	FLP00-C. Understand the limitations of floating-point numbers
CERT_C-FLP02-a	FLP02-C. Avoid using floating-point numbers when precise computation is needed
CERT_C-FLP03-a	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP03-b	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP03-c	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP03-d	FLP03-C. Detect and handle floating-point errors
CERT_C-FLP06-a	FLP06-C. Convert integers to floating point for floating-point operations
CERT_C-FLP06-b	FLP06-C. Convert integers to floating point for floating-point operations
CERT_C-FLP30-a	FLP30-C. Do not use floating-point variables as loop counters
CERT_C-FLP32-a	FLP32-C. Prevent or detect domain and range errors in math functions
CERT_C-FLP34-a	FLP34-C. Ensure that floating-point conversions are within range of the new type
CERT_C-FLP34-b	FLP34-C. Ensure that floating-point conversions are within range of the new type
CERT_C-FLP36-a	FLP36-C. Preserve precision when converting integral values to floating-point type
CERT_C-FLP36-b	FLP36-C. Preserve precision when converting integral values to floating-point type
CERT_C-FLP37-c	FLP37-C. Do not use object representations to compare floating-point values
CERT_C-INT02-a	INT02-C. Understand integer conversion rules
CERT_C-INT02-b	INT02-C. Understand integer conversion rules
CERT_C-INT04-a	INT04-C. Enforce limits on integer values originating from tainted sources
CERT_C-INT04-b	INT04-C. Enforce limits on integer values originating from tainted sources
CERT_C-INT04-c	INT04-C. Enforce limits on integer values originating from tainted sources
CERT_C-INT05-a	INT05-C. Do not use input functions to convert character data if they cannot handle all possible inputs
CERT_C-INT07-a	INT07-C. Use only explicitly signed or unsigned char type for numeric values
CERT_C-INT07-b	INT07-C. Use only explicitly signed or unsigned char type for numeric values
CERT_C-INT08-a	INT08-C. Verify that all integer values are in range
CERT_C-INT08-b	INT08-C. Verify that all integer values are in range
CERT_C-INT08-c	INT08-C. Verify that all integer values are in range
CERT_C-INT08-d	INT08-C. Verify that all integer values are in range
CERT_C-INT09-a	INT09-C. Ensure enumeration constants map to unique values
CERT_C-INT10-a	INT10-C. Do not assume a positive remainder when using the % operator
CERT_C-INT12-a	INT12-C. Do not make assumptions about the type of a plain int bit-field when used in an expression
CERT_C-INT13-a	INT13-C. Use bitwise operators only on unsigned operands
CERT_C-INT15-a	INT15-C. Use intmax_t or uintmax_t for formatted IO on programmer-defined integer types
CERT_C-INT16-a	INT16-C. Do not make assumptions about representation of signed integers
CERT_C-INT18-a	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
CERT_C-INT18-b	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
CERT_C-INT18-c	INT18-C. Evaluate integer expressions in a larger size before comparing or assigning to that size
CERT_C-INT30-a	INT30-C. Ensure that unsigned integer operations do not wrap
CERT_C-INT30-b	INT30-C. Ensure that unsigned integer operations do not wrap
CERT_C-INT30-c	INT30-C. Ensure that unsigned integer operations do not wrap
CERT_C-INT31-a	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-b	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-c	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-d	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-e	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-f	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-g	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-h	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-i	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-j	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-k CERT_C-INT31-a	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-b l	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-c m	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-d n	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-e o	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31-f p	INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31INT32-g a	INT31 INT32-C. Ensure that integer conversions operations on signed integers do not result in lost or misinterpreted data overflow
CERT_C-INT31INT32-h b	INT31 INT32-C. Ensure that integer conversions operations on signed integers do not result in lost or misinterpreted data overflow
CERT_C-INT31INT32-i c	INT31 INT32-C. Ensure that integer conversions operations on signed integers do not result in lost or misinterpreted data overflow
CERT_C-INT31INT33-j a	INT31 INT33-C. Ensure that integer conversions division and remainder operations do not result in lost or misinterpreted data divide-by-zero errors
CERT_C-INT34-INT31-k a	INT34-C. Do not shift an expression by a negative number of bits or by greater than or equal to the number of bits that exist in the operand INT31-C. Ensure that integer conversions do not result in lost or misinterpreted data
CERT_C-INT31INT35-l a	INT31 INT35-C. Ensure that integer conversions do not result in lost or misinterpreted data Use correct integer precisions
CERT_C-INT31INT36-m b	INT31 INT36-C. Ensure that integer conversions do not result in lost or misinterpreted data Converting a pointer to integer or integer to pointer
CERT_C-INT31MEM00-n a	INT31 MEM00-C. Ensure that integer conversions do not result in lost or misinterpreted data Allocate and free memory in the same module, at the same level of abstraction
CERT_C-INT32MEM00-a b	INT32 MEM00-C. Ensure that operations on signed integers do not result in overflow Allocate and free memory in the same module, at the same level of abstraction
CERT_C-INT32MEM00-b c	INT32 MEM00-C. Ensure that operations on signed integers do not result in overflow Allocate and free memory in the same module, at the same level of abstraction
CERT_C-INT32MEM00-c d	INT32 MEM00-C. Ensure that operations on signed integers do not result in overflow Allocate and free memory in the same module, at the same level of abstraction
CERT_C-INT33MEM00-a e	INT33 MEM00-C. Ensure that division and remainder operations do not result in divide-by-zero errors Allocate and free memory in the same module, at the same level of abstraction
CERT_C-INT34MEM01-a	INT34 MEM01-C. Do not shift an expression by a negative number of bits or by greater than or equal to the number of bits that exist in the operand Store a new value in pointers immediately after free()
CERT_C-INT35MEM01-a b	INT35-C. Use correct integer precisions MEM01-C. Store a new value in pointers immediately after free()
CERT_C-INT36MEM01-a c	INT36 MEM01-C. Converting a pointer to integer or integer to pointer Store a new value in pointers immediately after free()
CERT_C-INT36MEM01-b d	INT36 MEM01-C. Converting a pointer to integer or integer to pointer Store a new value in pointers immediately after free()
CERT_C-MEM00MEM02-a	MEM00 MEM02-C. Allocate and free memory in the same module, at the same level of abstraction Immediately cast the result of a memory allocation function call into a pointer to the allocated type
CERT_C-MEM00MEM02-b	MEM00 MEM02-C. Allocate and free memory in the same module, at the same level of abstraction Immediately cast the result of a memory allocation function call into a pointer to the allocated type
CERT_C-MEM00MEM03-c a	MEM00 MEM03-C. Allocate and free memory in the same module, at the same level of abstraction Clear sensitive information stored in reusable resources
CERT_C-MEM01MEM04-a MEM01	MEM04-C. Store a new value in pointers immediately after free() Beware of zero-length allocations
CERT_C-MEM01MEM05-b a	MEM01 MEM05-C. Store a new value in pointers immediately after free() Avoid large stack allocations
CERT_C-MEM01MEM05-c b	MEM01 MEM05-C. Store a new value in pointers immediately after free() Avoid large stack allocations
CERT_C-MEM01MEM07-d a	MEM01 MEM07-C. Store a new value in pointers immediately after free() Ensure that the arguments to calloc(), when multiplied, do not wrap
CERT_C-MEM12-a	MEM12-C. Consider using a goto chain when leaving a function on error when using and releasing resources
CERT_C-MEM30-a	MEM30-C. Do not access freed memory
CERT_C-MEM31-a	MEM31-C. Free dynamically allocated memory when no longer needed
CERT_C-MEM33-a	MEM33-C. Allocate and copy structures containing a flexible array member dynamically
CERT_C-MEM33-b	MEM33-C. Allocate and copy structures containing a flexible array member dynamically
CERT_C-MEM34-a	MEM34-C. Only free memory allocated dynamically
CERT_C-MEM35-a	MEM35-C. Allocate sufficient memory for an object
CERT_C-MEM36-a	MEM36-C. Do not modify the alignment of objects by calling realloc()
CERT_C-MSC01-a	MSC01-C. Strive for logical completeness
CERT_C-MSC01-b	MSC01-C. Strive for logical completeness
CERT_C-MSC04-a	MSC04-C. Use comments consistently and in a readable fashion
CERT_C-MSC04-b	MSC04-C. Use comments consistently and in a readable fashion
CERT_C-MSC04-c	MSC04-C. Use comments consistently and in a readable fashion
CERT_C-MSC04-d	MSC04-C. Use comments consistently and in a readable fashion
CERT_C-MSC06-a	MSC06-C. Beware of compiler optimizations
CERT_C-MSC07-a	MSC07-C. Detect and remove dead code
CERT_C-MSC07-a b	MSC07-C. Detect and remove dead code
CERT_C-MSC07-b c	MSC07-C. Detect and remove dead code
CERT_C-MSC07-c d	MSC07-C. Detect and remove dead code
CERT_C-MSC07-d e	MSC07-C. Detect and remove dead code
CERT_C-MSC07-e f	MSC07-C. Detect and remove dead code
CERT_C-MSC07-f g	MSC07-C. Detect and remove dead code
CERT_C-MSC07-g h	MSC07-C. Detect and remove dead code
CERT_C-MSC07-h i	MSC07-C. Detect and remove dead code
CERT_C-MSC09-a	MSC09-C. Character encoding: Use subset of ASCII for safety
CERT_C-MSC11-a	MSC11-C. Incorporate diagnostic tests using assertions -C. Incorporate diagnostic tests using assertions
CERT_C-MSC12-a	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-b	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-c	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-a d	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-b e	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-c f	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-d g	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-e h	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-f i	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-g j	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC12-h k	MSC12-C. Detect and remove code that has no effect or is never executed
CERT_C-MSC13-a	MSC13-C. Detect and remove unused values
CERT_C-MSC14-a	MSC14-C. Do not introduce unnecessary platform dependencies
CERT_C-MSC15-a	MSC15-C. Do not depend on undefined behavior
CERT_C-MSC17-a	MSC17-C. Finish every set of statements associated with a case label with a break statement
CERT_C-MSC19-a	MSC19-C. For functions that return an array, prefer returning an empty array over a null value
CERT_C-MSC19-b	MSC19-C. For functions that return an array, prefer returning an empty array over a null value
CERT_C-MSC22-a	MSC22-C. Use the setjmp(), longjmp() facility securely
CERT_C-MSC24-a	MSC24-C. Do not use deprecated or obsolescent functions
CERT_C-MSC24-b	MSC24-C. Do not use deprecated or obsolescent functions
CERT_C-MSC24-c	MSC24-C. Do not use deprecated or obsolescent functions
CERT_C-MSC24-d	MSC24-C. Do not use deprecated or obsolescent functions
CERT_C-MSC30-a MSC30-C. Do not use the rand() function for generating pseudorandom numbers
CERT_C-MSC32-a	MSC32-C. Properly seed pseudorandom number generators
CERT_C-MSC32-b	MSC32-C. Properly seed pseudorandom number generators
-a	MSC30-C. Do not use the rand() function for generating pseudorandom numbers	CERT_C-MSC32-c	MSC32-C. Properly seed pseudorandom number generators
CERT_C-MSC32-d	MSC32-C. Properly seed pseudorandom number generators
CERT_C-MSC33-a	MSC33-C. Do not pass invalid data to the asctime() function
CERT_C-MSC37-a	MSC37-C. Ensure that control never reaches the end of a non-void function
CERT_C-MSC38-a	MSC38-C. Do not treat a predefined identifier as an object if it might only be implemented as a macro
CERT_C-MSC39-a	MSC39-C. Do not call va_arg() on a va_list that has an indeterminate value
CERT_C-MSC40-a	MSC40-C. Do not violate constraints
CERT_C-POS30MSC41-a	POS30 MSC41-C. Use the readlink() function properly Never hard code sensitive information
CERT_C-POS30-b a	POS30-C. Use the readlink() function properly
CERT_C-POS30-c b	POS30-C. Use the readlink() function properly
CERT_C-POS33POS30-a c	POS33 POS30-C. Do not use vforkUse the readlink() function properly
CERT_C-POS34-a	POS34-C. Do not call putenv() with a pointer to an automatic variable as the argument
CERT_C-POS34-b	POS34-C. Do not call putenv() with a pointer to an automatic variable as the argument	CERT_C-POS35-a	POS35-C. Avoid race conditions while checking for the existence of a symbolic link variable as the argument
CERT_C-POS35-b	POS35-C. Avoid race conditions while checking for the existence of a symbolic link
CERT_C-POS36-a	POS36-C. Observe correct revocation order while relinquishing privileges
CERT_C-POS37-a	POS37-C. Ensure that privilege relinquishment is successful
CERT_C-POS38-a	POS38-C. Beware of race conditions when using fork and file descriptors
CERT_C-POS39-a	POS39-C. Use the correct byte ordering when transferring data between systems
CERT_C-POS44-a	POS44-C. Do not use signals to terminate threads
CERT_C-POS47-a	POS47-C. Do not use threads that can be canceled asynchronously
CERT_C-POS48-a	POS48-C. Do not unlock or destroy another POSIX thread's mutex
CERT_C-POS48-b	POS48-C. Do not unlock or destroy another POSIX thread's mutex
CERT_C-POS49-a	POS49-C. When data must be accessed by multiple threads, provide a mutex and guarantee no adjacent data is also accessed
CERT_C-POS50-a	POS50-C. Declare objects shared between POSIX threads with appropriate storage durations
CERT_C-POS51-a	POS51-C. Avoid deadlock with POSIX threads by locking in predefined order
CERT_C-POS52-a	POS52-C. Do not perform operations that can block while holding a POSIX lock
CERT_C-POS53-a	POS53-C. Do not use more than one mutex for concurrent waiting operations on a condition variable
CERT_C-POS54-a	POS54-C. Detect and handle POSIX library errors
CERT_C-POS54-b	POS54-C. Detect and handle POSIX library errors
CERT_C-POS54-c	POS54-C. Detect and handle POSIX library errors
CERT_C-PRE00-a	PRE00-C. Prefer inline or static functions to function-like macros
CERT_C-PRE01-a	PRE01-C. Use parentheses within macros around parameter names
CERT_C-PRE02-a	PRE02-C. Macro replacement lists should be parenthesized
CERT_C-PRE06-a	PRE06-C. Enclose header files in an include guard
CERT_C-PRE07-a	PRE07-C. Avoid using repeated question marks
CERT_C-PRE30-a	PRE30-C. Do not create a universal character name through concatenation	CERT_C-PRE31-a	PRE31-C. Avoid side effects in arguments to unsafe macros
CERT_C-PRE31-b	PRE31-C. Avoid side effects in arguments to unsafe macros
CERT_C-PRE31-c	PRE31-C. Avoid side effects in arguments to unsafe macros
CERT_C-PRE31-d	PRE31-C. Avoid side effects in arguments to unsafe macros
CERT_C-PRE32-a	PRE32-C. Do not use preprocessor directives in invocations of function-like macros
CERT_C-SIG00-a	SIG00-C. Mask signals handled by noninterruptible signal handlers
CERT_C-SIG01-a	SIG01-C. Understand implementation-specific details regarding signal handler persistence
CERT_C-SIG02-a	SIG02-C. Avoid using signals to implement normal functionality
CERT_C-SIG30-a	SIG30-C. Call only asynchronous-safe functions within signal handlers
CERT_C-SIG31-a	SIG31-C. Do not access shared objects in signal handlers
CERT_C-SIG34-a	SIG34-C. Do not call signal() from within interruptible signal handlers
CERT_C-SIG35-a	SIG35-C. Do not return from a computational exception signal handler
CERT_C-STR00-a	STR00-C. Represent characters using an appropriate type
CERT_C-STR02-a	STR02-C. Sanitize data passed to complex subsystems
CERT_C-STR02-b	STR02-C. Sanitize data passed to complex subsystems
CERT_C-STR02-c	STR02-C. Sanitize data passed to complex subsystems
CERT_C-STR03-a	STR03-C. Do not inadvertently truncate a string
CERT_C-STR04-a	STR04-C. Use plain char for characters in the basic character set
CERT_C-STR04STR05-a	STR04 STR05-C. Use plain char for characters in the basic character set pointers to const when referring to string literals
CERT_C-STR07-a	STR07-C. Use the bounds-checking interfaces for string manipulation
CERT_C-STR09-a	STR09-C. Don't assume numeric values for expressions with type plain character
CERT_C-STR10-a	STR10-C. Do not concatenate different type of string literals
CERT_C-STR11-a	STR11-C. Do not specify the bound of a character array initialized with a string literal
CERT_C-STR30-a	STR30-C. Do not attempt to modify string literals
CERT_C-STR30-b	STR30-C. Do not attempt to modify string literals
CERT_C-STR31-a	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
CERT_C-STR31-b	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
CERT_C-STR31-c	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
CERT_C-STR31-d	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
CERT_C-STR31-e	STR31-C. Guarantee that storage for strings has sufficient space for character data and the null terminator
CERT_C-STR32-a	STR32-C. Do not pass a non-null-terminated character sequence to a library function that expects a string
CERT_C-STR34-a	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
CERT_C-STR34-b	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
CERT_C-STR34-c	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
CERT_C-STR34-d b	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
CERT_C-STR34-e c	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
CERT_C-STR34-f d	STR34-C. Cast characters to unsigned char before converting to larger integer sizes
CERT_C-STR37-a	STR37-C. Arguments to character-handling functions must be representable as an unsigned char
CERT_C-STR38-a	STR38-C. Do not confuse narrow and wide character strings and functions
CERT_C-WIN00-a	WIN00-C. Be specific when dynamically loading libraries
CERT_C-WIN30-a	WIN30-C. Properly pair allocation and deallocation functions
Detects dangling pointers at runtime	MEM01-C. Store a new value in pointers immediately after free()	Runtime	INT32-C. Ensure that operations on signed integers do not result in overflow
Runtime analysis	DCL40-C. Do not create incompatible declarations of the same function or object
Runtime analysis	EXP33-C. Do not read uninitialized memory
Runtime analysis	EXP34-C. Do not dereference null pointers
Runtime analysis	INT32-C. Ensure that operations on signed integers do not result in overflow
Runtime analysis	INT33-C. Ensure that division and remainder operations do not result in divide-by-zero errors
Runtime analysis	ARR30-C. Do not form or use out-of-bounds pointers or array subscripts
Runtime analysis	ARR38-C. Guarantee that library functions do not form invalid pointers
Runtime analysis	MEM30-C. Do not access freed memory
Runtime analysis	MEM31-C. Free dynamically allocated memory when no longer needed
Runtime analysis	MEM34-C. Only free memory allocated dynamically
Runtime analysis	ERR33-C. Detect and handle standard library errors
Runtime analysis	DCL11-C. Understand the type issues associated with variadic functions
Runtime analysis	EXP08-C. Ensure pointer arithmetic is used correctly
Runtime analysis	FLP03-C. Detect and handle floating-point errors
Runtime analysis	MEM00-C. Allocate and free memory in the same module, at the same level of abstraction
Runtime analysis	STR07-C. Use the bounds-checking interfaces for string manipulation	Runtime detection	INT33-C. Ensure that division and remainder operations do not result in divide-by-zero errors

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