public static String simpleClassName( Class cl ) { return ClassUtils.simpleClassName( cl ); }
public static String simpleClassName( Class cl ) { return ClassUtils.simpleClassName( cl ); }
public static String simpleClassName( Class cl ) { return ClassUtils.simpleClassName( cl ); }
public static String resolvableTypeName( Class type, String[] importPkgs, String[] importClasses ) throws ClassNotFoundException { String simpleName = simpleClassName( type ); try { classForSimpleName( simpleName, importPkgs, importClasses ); } catch ( AmbiguousClassNameException e ) { return type.getName(); } return simpleName; }
public static String resolvableTypeName( Class type, String[] importPkgs, String[] importClasses ) throws ClassNotFoundException { String simpleName = simpleClassName( type ); try { classForSimpleName( simpleName, importPkgs, importClasses ); } catch ( AmbiguousClassNameException e ) { return type.getName(); } return simpleName; }
public static String resolvableTypeName( Class type, String[] importPkgs, String[] importClasses ) throws ClassNotFoundException { String simpleName = simpleClassName( type ); try { classForSimpleName( simpleName, importPkgs, importClasses ); } catch ( AmbiguousClassNameException e ) { return type.getName(); } return simpleName; }
public static String reflectiveMethodParameterTypeArray( Method m ) { StringBuffer sb = new StringBuffer(256); sb.append( "new Class[] " ); sb.append('{'); Class[] cls = m.getParameterTypes(); for(int i = 0, len = cls.length; i < len; ++i) { if (i != 0) sb.append(", "); sb.append( ClassUtils.simpleClassName( cls[i] ) ); sb.append(".class"); } sb.append('}'); return sb.toString(); }
public static String simpleClassName(Class cl) { String scn; int array_level = 0; while (cl.isArray()) { ++array_level; cl = cl.getComponentType(); } scn = simpleClassName( cl.getName() ); if ( array_level > 0 ) { StringBuffer sb = new StringBuffer(16); sb.append( scn ); for( int i = 0; i < array_level; ++i) sb.append("[]"); return sb.toString(); } else return scn; }
public static String simpleClassName(Class cl) { String scn; int array_level = 0; while (cl.isArray()) { ++array_level; cl = cl.getComponentType(); } scn = simpleClassName( cl.getName() ); if ( array_level > 0 ) { StringBuffer sb = new StringBuffer(16); sb.append( scn ); for( int i = 0; i < array_level; ++i) sb.append("[]"); return sb.toString(); } else return scn; }
public static String simpleClassName(Class cl) { String scn; int array_level = 0; while (cl.isArray()) { ++array_level; cl = cl.getComponentType(); } scn = simpleClassName( cl.getName() ); if ( array_level > 0 ) { StringBuffer sb = new StringBuffer(16); sb.append( scn ); for( int i = 0; i < array_level; ++i) sb.append("[]"); return sb.toString(); } else return scn; }
sb.append(getModifierString(modifiers)); sb.append(' '); sb.append( ClassUtils.simpleClassName( m.getReturnType() ) ); sb.append(' '); sb.append( m.getName() ); sb.append( ClassUtils.simpleClassName( cls[i] ) ); sb.append(' '); sb.append( argNames == null ? String.valueOf((char) ('a' + i)) : argNames[i] ); sb.append( ClassUtils.simpleClassName( excClasses[i] ) );
sb.append(getModifierString(modifiers)); sb.append(' '); sb.append( ClassUtils.simpleClassName( m.getReturnType() ) ); sb.append(' '); sb.append( m.getName() ); sb.append( ClassUtils.simpleClassName( cls[i] ) ); sb.append(' '); sb.append( argNames == null ? String.valueOf((char) ('a' + i)) : argNames[i] ); sb.append( ClassUtils.simpleClassName( excClasses[i] ) );
sb.append(getModifierString(modifiers)); sb.append(' '); sb.append( ClassUtils.simpleClassName( m.getReturnType() ) ); sb.append(' '); sb.append( m.getName() ); sb.append( ClassUtils.simpleClassName( cls[i] ) ); sb.append(' '); sb.append( argNames == null ? String.valueOf((char) ('a' + i)) : argNames[i] ); sb.append( ClassUtils.simpleClassName( excClasses[i] ) );
String sin = ClassUtils.simpleClassName( intfcl ); String sgenclass1 = "Filter" + sin; String sgenclass2 = "SynchronizedFilter" + sin;
String sin = ClassUtils.simpleClassName( intfcl ); String sgenclass1 = "Filter" + sin; String sgenclass2 = "SynchronizedFilter" + sin;
String sin = ClassUtils.simpleClassName( intfcl ); String sgenclass1 = "Filter" + sin; String sgenclass2 = "SynchronizedFilter" + sin;
iw.upIndent(); iw.println("Method m = __delegateClass.getMethod(\042" + method.getName() + "\042, " + paramTypesArrayStr + ");"); iw.println( (retType == void.class ? "" : "return (" + ClassUtils.simpleClassName( retType ) + ") ") + "m.invoke( inner, " + argArrayStr + " );" ); iw.downIndent(); String ecn = ClassUtils.simpleClassName( exceptionsArray[i] ); iw.println("if (cause instanceof " + ecn + ") throw (" + ecn + ") cause;");
String scn = (superclass != null ? ClassUtils.simpleClassName( superclass ) : null); String sin = ClassUtils.simpleClassName( intfcl ); String[] eins = null; if (extraInterfaces != null) eins[i] = ClassUtils.simpleClassName( extraInterfaces[i] );
String scn = (superclass != null ? ClassUtils.simpleClassName( superclass ) : null); String sin = ClassUtils.simpleClassName( intfcl ); String[] eins = null; if (extraInterfaces != null) eins[i] = ClassUtils.simpleClassName( extraInterfaces[i] );
String scn = (superclass != null ? ClassUtils.simpleClassName( superclass ) : null); String sin = ClassUtils.simpleClassName( intfcl ); String[] eins = null; if (extraInterfaces != null) eins[i] = ClassUtils.simpleClassName( extraInterfaces[i] ); delegateClassExpr = "inner.getClass()"; else delegateClassExpr = ClassUtils.simpleClassName( reflectiveDelegationPolicy.delegateClass ) + ".class";