void record(String typeLocator, char[][][] qualifiedRefs, char[][] simpleRefs, char[][] rootRefs, char[] mainTypeName, ArrayList typeNames) { if (typeNames.size() == 1 && CharOperation.equals(mainTypeName, (char[]) typeNames.get(0))) { this.references.put(typeLocator, new ReferenceCollection(qualifiedRefs, simpleRefs, rootRefs)); } else { char[][] definedTypeNames = new char[typeNames.size()][]; // can be empty when no types are defined typeNames.toArray(definedTypeNames); this.references.put(typeLocator, new AdditionalTypeCollection(definedTypeNames, qualifiedRefs, simpleRefs, rootRefs)); } }
void record(String typeLocator, char[][][] qualifiedRefs, char[][] simpleRefs, char[][] rootRefs, char[] mainTypeName, ArrayList typeNames) { if (typeNames.size() == 1 && CharOperation.equals(mainTypeName, (char[]) typeNames.get(0))) { this.references.put(typeLocator, new ReferenceCollection(qualifiedRefs, simpleRefs, rootRefs)); } else { char[][] definedTypeNames = new char[typeNames.size()][]; // can be empty when no types are defined typeNames.toArray(definedTypeNames); this.references.put(typeLocator, new AdditionalTypeCollection(definedTypeNames, qualifiedRefs, simpleRefs, rootRefs)); } }
void record(String typeLocator, char[][][] qualifiedRefs, char[][] simpleRefs, char[][] rootRefs, char[] mainTypeName, ArrayList typeNames) { if (typeNames.size() == 1 && CharOperation.equals(mainTypeName, (char[]) typeNames.get(0))) { this.references.put(typeLocator, new ReferenceCollection(qualifiedRefs, simpleRefs, rootRefs)); } else { char[][] definedTypeNames = new char[typeNames.size()][]; // can be empty when no types are defined typeNames.toArray(definedTypeNames); this.references.put(typeLocator, new AdditionalTypeCollection(definedTypeNames, qualifiedRefs, simpleRefs, rootRefs)); } }
void record(String typeLocator, char[][][] qualifiedRefs, char[][] simpleRefs, char[][] rootRefs, char[] mainTypeName, ArrayList typeNames) { if (typeNames.size() == 1 && CharOperation.equals(mainTypeName, (char[]) typeNames.get(0))) { this.references.put(typeLocator, new ReferenceCollection(qualifiedRefs, simpleRefs, rootRefs)); } else { char[][] definedTypeNames = new char[typeNames.size()][]; // can be empty when no types are defined typeNames.toArray(definedTypeNames); this.references.put(typeLocator, new AdditionalTypeCollection(definedTypeNames, qualifiedRefs, simpleRefs, rootRefs)); } }
void record(String typeLocator, char[][][] qualifiedRefs, char[][] simpleRefs, char[][] rootRefs, char[] mainTypeName, ArrayList typeNames) { if (typeNames.size() == 1 && CharOperation.equals(mainTypeName, (char[]) typeNames.get(0))) { this.references.put(typeLocator, new ReferenceCollection(qualifiedRefs, simpleRefs, rootRefs)); } else { char[][] definedTypeNames = new char[typeNames.size()][]; // can be empty when no types are defined typeNames.toArray(definedTypeNames); this.references.put(typeLocator, new AdditionalTypeCollection(definedTypeNames, qualifiedRefs, simpleRefs, rootRefs)); } }
void record(String typeLocator, char[][][] qualifiedRefs, char[][] simpleRefs, char[][] rootRefs, char[] mainTypeName, ArrayList typeNames) { if (typeNames.size() == 1 && CharOperation.equals(mainTypeName, (char[]) typeNames.get(0))) { this.references.put(typeLocator, new ReferenceCollection(qualifiedRefs, simpleRefs, rootRefs)); } else { char[][] definedTypeNames = new char[typeNames.size()][]; // can be empty when no types are defined typeNames.toArray(definedTypeNames); this.references.put(typeLocator, new AdditionalTypeCollection(definedTypeNames, qualifiedRefs, simpleRefs, rootRefs)); } }
for (int j = 0, m = rootNames.length; j < m; j++) rootNames[j] = internedRootNames[in.readInt()]; collection = new AdditionalTypeCollection(additionalTypeNames, qualifiedNames, simpleNames, rootNames); break; case 2 :
for (int j = 0, m = rootNames.length; j < m; j++) rootNames[j] = internedRootNames[in.readInt()]; collection = new AdditionalTypeCollection(additionalTypeNames, qualifiedNames, simpleNames, rootNames); break; case 2 :
for (int j = 0, m = rootNames.length; j < m; j++) rootNames[j] = internedRootNames[in.readInt()]; collection = new AdditionalTypeCollection(additionalTypeNames, qualifiedNames, simpleNames, rootNames); break; case 2 :
for (int j = 0, m = rootNames.length; j < m; j++) rootNames[j] = internedRootNames[in.readInt()]; collection = new AdditionalTypeCollection(additionalTypeNames, qualifiedNames, simpleNames, rootNames); break; case 2 :
for (int j = 0, m = rootNames.length; j < m; j++) rootNames[j] = internedRootNames[in.readInt()]; collection = new AdditionalTypeCollection(additionalTypeNames, qualifiedNames, simpleNames, rootNames); break; case 2 :
for (int j = 0, m = rootNames.length; j < m; j++) rootNames[j] = internedRootNames[in.readInt()]; collection = new AdditionalTypeCollection(additionalTypeNames, qualifiedNames, simpleNames, rootNames); break; case 2 :