pycodeanalyzer.core.analyzer.identification
Summary
Classes:
Identity analyzer |
Diagrams
IdentityAnalyser
classDiagram class IdentityAnalyser { <<Class>> + Dict<str,List<Any>> mapping + str commonFilePath +Constructor() None +analyze(List~AbstractObject~ objects) None +analyzeClassifications() None +getClasses() List~AbstractClass~ +getEnums() List~AbstractEnum~ +getFunctions() List~AbstractFunction~ +getClasseTree() Dict~str,Any~ +getEnumTree() Dict~str,Any~ +getFunctionTree() Dict~str,Any~ +getFiles() List~str~ +getFileTree() Dict~str,Any~ +getClass(str classNamespacePath) AbstractClass +getEnum(str enumNamespacePath) AbstractEnum +getFunction(str funcFullDef) AbstractFunction +getObjectInFile(str file) Dict<str,List<str>> } class AbstractObject { <<Class>> + str name + str type + str origin + List~str~ usingNS + AbstractObjectLanguage objectLanguage + List~str~ linkedGenericTypes +Constructor(str name, str origin) None +addUsingNamespace(str namespace) None } link AbstractObject "class££pycodeanalyzer::core::abstraction::objects::AbstractObject" class AbstractClass { <<Class>> + str namespace + str type + List<Tuple<str,str,str>> members + List<Tuple<str,str,List<Tuple<str,str>>,str>> methodes + List<Tuple<str,str,str>> parents + List~str~ linkedGenericTypes + List~AbstractClassClassifier~ classifiers +Constructor(str name, str namespace, str origin) None +addGenericType(str genType) None +addMember(str type, str name, str visibility) None +hasMember(str name) bool +addMethod(str returnType, str name, List<Tuple<str,str>> parameters, str visibility) None +addParent(str completetype, str name, str visibility) None +addClassifier(AbstractClassClassifier classifier) None +getMainClassifier() str +getLinkedTypes() List~str~ -isPotentialClassName(str type) bool -getDependanceFromType(str type) List~str~ -splitTypes(Any decl) List~str~ +getFullName() str -cleanLanguageArtifacts(str type) str -removeNonObjectTypes(List~str~ typeList) List~str~ +isParent(AbstractClass klass) bool +print() None } link AbstractClass "class££pycodeanalyzer::core::abstraction::objects::AbstractClass" class AbstractEnum { <<Class>> + str namespace + str type + List~str~ values +Constructor(str name, str namespace, str origin, List~str~ values) None +getFullName() str +print() None } link AbstractEnum "class££pycodeanalyzer::core::abstraction::objects::AbstractEnum" class AbstractFunction { <<Class>> + str namespace + str type + str returnType + List<Tuple<str,str>> parameters + str doxygen + List~str~ linkedGenericTypes +Constructor(str name, str origin, str returnType, List<Tuple<str,str>> parameters, str namespace, str doxygen) None +addGenericType(str genType) None +print() None +getFullDef() str } link AbstractFunction "class££pycodeanalyzer::core::abstraction::objects::AbstractFunction" IdentityAnalyser ..> AbstractObject IdentityAnalyser ..> AbstractClass IdentityAnalyser ..> AbstractEnum IdentityAnalyser ..> AbstractFunctionIdentityAnalyser class diagram
Reference
- class pycodeanalyzer.core.analyzer.identification.IdentityAnalyser[source]
Bases:
objectIdentity analyzer
This analyzer store all objects and allow to access them or the global trees.
- analyze(objects: List[pycodeanalyzer.core.abstraction.objects.AbstractObject]) None[source]
- getClasses() List[pycodeanalyzer.core.abstraction.objects.AbstractClass][source]
- getEnums() List[pycodeanalyzer.core.abstraction.objects.AbstractEnum][source]
- getFunctions() List[pycodeanalyzer.core.abstraction.objects.AbstractFunction][source]
- getClass(classNamespacePath: str) Optional[pycodeanalyzer.core.abstraction.objects.AbstractClass][source]
- getEnum(enumNamespacePath: str) Optional[pycodeanalyzer.core.abstraction.objects.AbstractEnum][source]
- getFunction(funcFullDef: str) Optional[pycodeanalyzer.core.abstraction.objects.AbstractFunction][source]
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