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The following 19 specific conversions on primitive types are called the widening primitive conversions:

  • byte to short, int, long, float, or double
  • short to int, long, float, or double
  • char to int, long, float, or double
  • int to long, float, or double
  • long to float or double
  • float to double

Conversion from int or long to float, or from long to double may can lead to loss of precision (loss of least significant bits). In this casethese cases, the resulting floating-point value is a rounded version of the integer value, using IEEE 754 round-to-nearest mode. Despite this loss of precision, the The Java Language Specification (JLS) requires that the conversion and rounding occur silently; , that is, without any runtime exception . See (see the JLS, Section 5 §5.1.2, "Widening Primitive Conversion" [JLS 2015], for more information). Conversions from integral types smaller than int to a floating-point type and conversions from int to double can never result in a loss of precision. Consequently, programs must ensure that conversions from an int or long to a floating-point type or from long to double do not result in a loss of required precision.

Note that conversions from float to double can also lose information about the overall magnitude of the converted value . See guideline FLP04(see NUM53-J. Use the strictfp modifier for floating-point calculation consistency across platforms for additional information).

Noncompliant Code Example

In this noncompliant code example, two identical large integer literals are passed as arguments to the subFloatFromInt() method. The second argument is coerced to float, cast back to int, and subtracted from a value of type int. The result is returned as a value of type int.

This method may could have unexpected results because of the loss of precision. Values In FP-strict mode, values of type float have 23 mantissa bits, a sign bit, and an 8-bit exponent (see NUM53-J. Use the strictfp modifier for floating-point calculation consistency across platforms for more information about FP-strict mode). The exponent allows type float to represent a larger range than that of type int. However, the 23-bit mantissa means that float supports exact representation only of integers whose representation fits within 23 bits; float supports only approximate representation of integers outside that range.

Code Block
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strictfp class WideSample {
  public static int subFloatFromInt(int op1, float op2) {
    return op1 - (int)op2;
  }

  public static void main(String[] args) {
    int result = subFloatFromInt(1234567890, 1234567890);
    // This prints -46, and not 0, as may be expected
    System.out.println(result);  
  }

}

Note that conversions from long to either float or double can lead to similar loss of precision.

Compliant Solution (ArithmeticException)

This compliant solution range checks the argument of the integer argument (op1) to ensure it can be represented as a value of type float without a loss of precision.:

Code Block
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strictfp class WideSample {
  public static int subFloatFromInt(int op1, float op2)
                    throws ArithmeticException {

    // The significand can store at most 23 bits
    if ((op1op2 > 0x007fffff) || (op1op2 < -0x800000)) { 
      throw new ArithmeticException("Insufficient precision");	
    }

    return op1 - (int)op2;
  }

  public static void main(String[] args) {
    int result = subFloatFromInt(1234567890, 1234567890);
    System.out.println(result);  
  }
}

In this example, the subFloatFromInt() method throws java.lang.ArithmeticException ArithmeticException. This general approach, with appropriate range checks, can be used for conversions from long to either float or double.

Compliant Solution (

...

Wider Type)

This compliant solution accepts an argument of type double instead of an argument of type float. Values In FP-strict mode, values of type double have 52 mantissa bits, a sign bit, and an 11-bit exponent. Consequently, integer Integer values of type int and narrower can be converted to double without a loss of precision.

Code Block
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strictfp class WideSample {
  public static int subDoubleFromInt(int op1, double op2) {
    return op1 - (int)op2;
  }

  public static void main(String[] args) {
    int result = subDoubleFromInt(1234567890, 1234567890);
    // Works as expected
    System.out.println(result);  
  }

}

Note that this compliant solution cannot be used when the primitive integers are of type long because Java lacks a primitive floating-point type whose mantissa can represent the full range of a long.

Exceptions

NUM13-J-EX0: Conversion from integral types to floating-point types without a range check is permitted when suitable numerical analysis demonstrates that the loss of the least significant bits of precision is acceptable.

Risk Assessment

Converting integer values to floating-point types whose mantissa has fewer bits than the original integer value will lose precisioncan result in a rounding error.

Guideline

Rule

Severity

Likelihood

Remediation Cost

Priority

Level

FLP10

NUM13-J

low

Low

unlikely

Unlikely

medium

Medium

P2

L3

Automated Detection

Automatic detection of casts that can lose precision is straightforward. Sound determination of whether those casts correctly reflect the intent of the programmer is infeasible in the general case. Heuristic warnings could be useful.

Related Vulnerabilities

Search for vulnerabilities resulting from the violation of this guideline on the CERT website.

Related Guidelines

C Secure Coding Standard: FLP36-C. Beware of precision loss when converting integral types to floating point

C++ Secure Coding Standard: FLP36-CPP. Beware of precision loss when converting integral types to floating point

Bibliography

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\[[JLS 2005|AA. Bibliography#JLS 05]\] [Section 5.1.2|http://java.sun.com/docs/books/jls/third_edition/html/conversions.html#5.1.2], "Widening Primitive Conversion"

ToolVersionCheckerDescription
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JAVA.CAST.FTRUNC

Cast: Integer to Floating Point (Java)

Parasoft Jtest
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CERT.NUM13.AICAvoid implicit casts from integer data types to floating point data types
PVS-Studio

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V6011

Related Guidelines

Bibliography


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Image Added Image Added Image AddedINT02-J. Do not assume that the remainder operator always returns a non-negative result      03. Integers (INT)      INT04-J. Avoid using the char integral type to hold signed values