Coding Convention
Simantics coding conventions are gathered in this document. These rules apply to all org.simantics projects and are recommended for anyone developing with Java.
Contents
Argument Assumption
- All method arguments are non-null unless explicitely stated otherwise in documentation.
The default assumption is that an argument is non-null. This applies to undocumented methods too.
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/** * Read the object from a file. * * @param file */ void read(File file);
// and void read(File file);
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A null possibility must be explicitely stated.
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/** * Write or remove existing value. * * @param newValue new value or null</t> to remove the existing value */ void setValue(Object newValue);
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Return value assumption
- All return values are non-null unless explicitely stated otherwise in documentation.
The thumb rule is that the return value is non-null. It applies to undocumented methods aswell.
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/** * Get the value * * @return the value */ Object get();
// and Object get();
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Null option as return value is always explicitely documented.
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/** * Get possibly existing value * * @return the value is exists, otherwise null */ Object get();
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Trust your assumptions
- You have a code of conduct - give it a chance.
The callee can trust the caller.
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BigInteger multiply(BigInteger a, BigInteger b) throw IOException { return a.multiply(b); }
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And the caller the callee.
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System.out.println( multiply(a, b) );
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In most cases there is no good reason to do redundant checking, especially at run-time.
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BigInteger multiply(BigInteger a, BigInteger b) throw IOException { if ( a == null || b == null ) throw IllegalArgumentException("Non-null argument is expected"); return a.multiply(b); }
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Nor caller.
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Object x = multiply( a, b ); if ( x != null ) System.out.println( x );
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Use assertions if you must. Checking still improves quality a bit and helps in early detection of problems. Assertion is not considered as run-time checking as they can be disabled from the VM.
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BigInteger multiply(BigInteger a, BigInteger b) throw IOException { assert( a != null && b != null ); return a.multiply(b); }
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Maintenance and migration
These rules apply to code that is published and in wide use.
- API doesn't change between minor releases.
In case of faulty design, old methods are preserved and are marked @Deprecated. They can be removed in the next major version release.
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@Deprecated Object getValue(Object newValue);
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- Documentation is correct, the implementation is faulty.
In case there is a mismatch between the documentation and the implementation, then the documentation prevails and the fault is in the implementation.
In this example the method returns an unexpected null.
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/** * Deserialize an object from an input stream. * * @param is source stream * @return the object **/ Object deserialize(InputStream is) { try { int x = is.read(); ... return result; } catch (IOException e) { return null; } }
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The assumptions that can be derived from the documentation is unchanged and the implementation is corrected.
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/** * Deserialize an object from an input stream. * * @deprecated use deserialize2, it has better error control * @param is source stream * @return the object * @throws RuntimeIOException in case of IO problems **/ Object deserialize(InputStream is) throws RuntimeIOException { try { int x = is.read(); ... return result; } catch (IOException e) { throw new RuntimeIOException( e ); } }
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It can be replaced with correct method in the next major version release.
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/** * Deserialize an object from an input stream. * * @param is source stream * @return an object * @throws IOException in case of problems **/ Object deserialize(InputStream is) throws IOException { int x = is.read(); return result; }
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