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When converting integers to floating-point values, and vice versa, it is important to carry out proper range checks to avoid undefined behavior . (See see FLP34-C. Ensure that floating-point conversions are within range of the new type).)

Noncompliant Code Example

In this noncompliant code example, the division and multiplication operations take place on integers and are then converted to floating point. Consequently, floating-point variables d, e, and f are not initialized correctly because the operations take place before the values are converted to floating-point values. The results are truncated to the nearest integer or may overflow.

Code Block

bgColor	#FFCCCC
lang	c

void func(void) {
  short a = 533;
  int b = 6789;
  long c = 466438237;

  float d = a / 7; /* d is 76.0 */
  double e = b / 30; /* e is 226.0 */
  double f = c * 789; /* f may be negative due to overflow */
}

Compliant Solution (Floating-Point Literal)

In this compliant solution, the decimal error in initialization is eliminated by ensuring that at least one of the operands to the division operation is floating point:

Code Block

bgColor	#CCCCFF
lang	c

void func(void) {
  short a = 533;
  int b = 6789;
  long c = 466438237;

  float d = a / 7.0f; /* d is 76.14286 */
  double e = b / 30.; /* e is 226.3 */
  double f = (double)c * 789; /* f is 368019768993.0 */
}

Compliant Solution (Conversion)

In this compliant solution, the decimal error in initialization is eliminated by first storing the integer in the floating-point variable and then performing the arithmetic operation. This practice ensures that at least one of the operands is a floating-point number and that the subsequent arithmetic operation is performed on floating-point operands.

Code Block

bgColor	#CCCCFF
lang	c

void func(void) {
  short a = 533;
  int b = 6789;
  long c = 466438237;

  float d = a;
  double e = b;
  double f = c;

  d /= 7; /* d is 76.14286 */
  e /= 30; /* e is 226.3 */
  f *= 789; /* f is 368019768993.0 */
}

Exceptions

FLP33FLP06-C-EX1EX0: It may be desirable to have the operation take place as integers before the conversion (obviating the need for a call to trunc(), for example). If this is the programmer's intention, it should be clearly documented to help future maintainers understand that this behavior is intentional.

Risk Assessment

Improper conversions between integers and floating-point values may yield unexpected results, especially loss of precision. Additionally, these unexpected results may actually involve overflow, or undefined behavior.

Rule

Recommendation	Severity	Likelihood	Detectable

Remediation Cost

Repairable	Priority	Level

FLP33

FLP06-C

Low

Probable

Low

No

P6

P2

L2

L3

Automated Detection

Tool

Version

Checker

Description

Astrée

Include Page

	Astrée_V
	Astrée_V

Supported: This rule aims to prevent truncations and overflows. All possible overflows are reported by Astrée.

Axivion Bauhaus Suite

Include Page

	Axivion Bauhaus Suite_V
	Axivion Bauhaus Suite_V

CertC-FLP06

CodeSonar

Include Page

	CodeSonar_V
	CodeSonar_V

LANG.TYPE.MOT

Mismatched operand types

Compass/ROSE

Can detect violations of this rule. Any assignment operation where the type of the assigned-to value is float or double, but all the expressions to the right of the assignment are integral, is a violation of this rule

Helix QAC

Include Page

	Helix QAC_V
	Helix QAC_V

C4117, C4118

LDRA tool suite

Include Page

	LDRA_V
	LDRA_V

442 S
443 S
444 S

Fully implemented

PRQA QA-C Include PagePRQA_VPRQA_V

4117
4118
4119

Partially

435 S

Enhanced enforcement

Parasoft C/C++test

Include Page

	Parasoft_V
	Parasoft_V

CERT_C-FLP06-a
CERT_C-FLP06-b

Implicit conversions from integral to floating type which may result in a loss of information shall not be used
Implicit conversions from integral constant to floating type which may result in a loss of information shall not be used

PC-lint Plus

Include Page