String representations of floating point values may lead to incorrect conclusions about the precision of the values. For example, consider converting a value of type float
to the type double
, a widening primitive conversion. Refer to the guideline INT33-J. Do not cast numeric types to wider floating-point types without range checking for more details about such conversions. If the value of the float
variable must be represented exactly using the double
type, an explicit assignment is more appropriate than first converting the floating point value to a String
and then to a double
.
Noncompliant Code Example
This noncompliant code example converts a value of type float
to a value of type double
. The float
variable contains the equivalent of 1/3 (0.3333333432674408). However, the default string representation can mislead a programmer into thinking that the correct value is 0.33333334. Consequently, the double
variable may acquire an imprecise value. The imprecise value arises from the default precision used for converting floating point numbers to a string.
double d; float f = 1/3f; // Contains the value 0.33333334 d = Double.valueOf(String.valueOf(f)); // Now contains the value 0.33333334
Compliant Solution
This compliant solution assigns the value of type float
to the double
variable directly.
double d; float f = 1/3f; // Contains the value 0.3333333432674408 d = f; // Assigned the value 0.3333333432674408
Noncompliant Code Example
This noncompliant code example obtains the result of 1/1000.0 and represents it as a String
. However, even though the resulting value is precise, an extra zero digit is appended at the end. Any operations on the string, such as comparisons, may yield incorrect results.
int i = 1; String s = Double.valueOf (i / 1000.0).toString(); // s contains 0.0010 if(s.equals("0.001")) { // Fails // Do something }
Compliant Solution
This compliant solution uses the BigDecimal
class and strips the trailing zeros so that future operations do not fail.
int i = 1; BigDecimal d = new BigDecimal(Double.valueOf (i / 1000.0).toString()).stripTrailingZeros(); if(d.compareTo(new BigDecimal("0.001")) == 0) { // Passes // Do something }
Risk Assessment
Relying on the string representation of floating point types can result in imprecise values.
Rule |
Severity |
Likelihood |
Remediation Cost |
Priority |
Level |
---|---|---|---|---|---|
FLP05- J |
low |
likely |
medium |
P6 |
L2 |
Automated Detection
TODO
Related Vulnerabilities
References
[[API 06]]
[[JLS 05]]
FLP04-J. Check floating point inputs for exceptional values 07. Floating Point (FLP) FLP30-J. Do not use floating point variables as loop counters