An in-band error indicator is a type value returned by a function method that can indicate indicates either a legitimate return value , or an illegitimate value that indicates an error of some sort. Some common examples of in-band error indicators include:
- A valid object or a null reference.
- An integer indicating a positive value, or -1 −1 to indicate that an error occurred.
- An array of valid objects or a null reference indicating the absence of valid objects. (This topic is further addressed in in MET55-JG. For methods that return an J. Return an empty array or collection prefer returning an empty instead of a null value for methods that return an array or collection over a null value.)
In-band - error indicators require checking for the error; however, this checking is often overlooked. Failure to check for such error conditions not only violates EXP00-J. Do not ignore values returned by methods, but also has the unfortunate effect of propagating invalid values that may subsequently be treated as valid in later computations.
Avoid the use of in-band error indicators. They are much less common in Java's core library than in some other programming languages; nevertheless, they are used in the read(byte[] b, int off, int len)
and read(char[] cbuf, int off, int len)
families of methods in java.io
.
In Java, the best way to indicate an exceptional situation is by throwing an exception rather than by returning an error code. Exceptions are propagated across scopes and cannot be ignored in the same way that as easily as error codes can. When using exceptions, the error-detection and error-handling code is kept separate from the main flow of control. Also, exceptions can be used in situations where error codes cannot be returned (in constructors, for example).
Noncompliant Code Example
This noncompliant code example attempts to read into an array of characters and to add an extra character into the buffer immediately after the characters that are read:.
Code Block | ||
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static final int MAX = 21; static final int MAX_READ = MAX - 1; static final char TERMINATOR = '\\'; int read; char [] chBuff = new char [MAX]; BufferedReader buffRdr; // Set up buffRdr read = buffRdr.read(chBuff, 0, MAX_READ); chBuff[read] = TERMINATOR; |
However, if the input buffer is initially at end-of-file, the read
method will return −1, and the attempt to place the terminator character will throw an ArrayIndexOutOfBoundsException
.
Compliant Solution (Wrapping)
This compliant solution defines a readSafe()
method that wraps the original read()
method and throws an exception if end-of-file is detected:
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| ||
public static int readSafe(BufferedReader buffer, char[] cbuf, int off, int len) throws IOException { int read = buffer.read(cbuf, off, len); if (read == -1) { throw new EOFException(); } else { return read; } } // ... BufferedReader buffRdr; // Set up buffRdr try { read = readSafe(buffRdr, chBuff, 0, MAX_READ); chBuff[read] = TERMINATOR; } catch (EOFException eof) { chBuff[0] = TERMINATOR; } |
Applicability
Using in-band error indicators may result in programmers either failing to check status codes or using incorrect return values, leading to undefined unexpected behavior.
Given the comparatively rare occurrence of in-band error indicators in Java, it may be possible to compile a list of all standard library methods that use them and to automatically detect their use. However, detecting the safe use of in-band error indicators is not feasible in full generalitythe general case.
Returning an object that might be null on failure or a valid object on success is a common example of in-band error indicator. While there Although better method designs are often better function designs available, returning an object that may be null can be acceptable under some circumstances. See MET54-JGJ. Always provide feedback about the resulting value of a method for an example.
Bibliography
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