Macros are often used to execute a sequence of multiple statements as a group.
Inline functions are, in general, more suitable for this task (see PRE00-C. Prefer inline or static functions to function-like macros). Occasionally, however, they are not feasible (when macros are expected to operate on variables of different types, for example).
When multiple statements are used in a macro, they should be bound together in a do-while
loop syntactically, so the macro can appear safely inside if
clauses or other places that expect a single statement or a statement block. (Alternatively, when an if
, for
, or while
statement uses braces even for a single body statement, then multiple statements in a macro will expand correctly even without a do-while
loop (see EXP19-C. Use braces for the body of an if, for, or while statement).
Noncompliant Code Example
This noncompliant code example contains multiple, unbound statements:
/* * Swaps two values and requires * tmp variable to be defined. */ #define SWAP(x, y) \ tmp = x; \ x = y; \ y = tmp
This macro expands correctly in a normal sequence of statements but not as the then
clause in an if
statement:
int x, y, z, tmp; if (z == 0) SWAP(x, y);
It expands to the following, which is certainly not what the programmer intended:
int x, y, z, tmp; if (z == 0) tmp = x; x = y; y = tmp;
Furthermore, this macro violates PRE02-C. Macro replacement lists should be parenthesized.
Noncompliant Code Example
This noncompliant code example parenthesizes its macro arguments, but inadequately bounds multiple statements:
/* * Swaps two values and requires * tmp variable to be defined. */ #define SWAP(x, y) { tmp = (x); (x) = (y); (y) = tmp; }
This macro fails to expand correctly in some case, such as the following example, which is meant to be an if
statement with two branches:
if (x > y) SWAP(x, y); /* Branch 1 */ else do_something(); /* Branch 2 */
Following macro expansion, however, this code is interpreted as an if
statement with only one branch:
if (x > y) { /* Single-branch if-statement!!! */ tmp = x; /* The one and only branch consists */ x = y; /* of the block. */ y = tmp; } ; /* Empty statement */ else /* ERROR!!! "parse error before else" */ do_something();
The problem is the semicolon (
) following the block.;
Compliant Solution
Wrapping the macro inside a do-while
loop mitigates the problem:
/* * Swaps two values and requires * tmp variable to be defined. */ #define SWAP(x, y) \ do { \ tmp = (x); \ (x) = (y); \ (y) = tmp; } \ while (0)
The do-while
loop will always be executed exactly once.
This macro still violates the recommendation PRE12-C. Do not define unsafe macros, because both macro arguments are evaluated twice. It is expected that the arguments are simple lvalues.
Risk Assessment
Improperly wrapped statement macros can result in unexpected and difficult to diagnose behavior.
Recommendation | Severity | Likelihood | Remediation Cost | Priority | Level |
---|---|---|---|---|---|
PRE10-C | Medium | Probable | Low | P12 | L1 |
Automated Detection
Tool | Version | Checker | Description |
---|---|---|---|
Axivion Bauhaus Suite | 7.2.0 | CertC-PRE10 | |
Klocwork | 2024.3 | MISRA.DEFINE.BADEXP | |
LDRA tool suite | 9.7.1 | 79 S | Enhanced enforcement |
Polyspace Bug Finder | R2024a | CERT C: Rec. PRE10-C | Checks for macros with multiple statements (rule fully covered) |
PRQA QA-C | Unable to render {include} The included page could not be found. | 3412, 3458 | Fully implemented |
Related Vulnerabilities
Search for vulnerabilities resulting from the violation of this rule on the CERT website.
Related Guidelines
ISO/IEC TR 24772:2013 | Pre-processor Directives [NMP] |