public Object visitImportFrom(ImportFrom node) throws Exception { String module = getUnique(node.getInternalModule() + "$"); addLine("IMPORT " + node.getInternalModule()); addLine("POP " + module); for (alias name : node.getInternalNames()) { addLine("PUSH " + module); addLine("SELECTMEMBER " + name.getInternalName()); addLine("PUSHMEMBER"); if (name.getInternalAsname() != null) { addLine("POP " + name.getInternalAsname()); } else { addLine("POP " + name.getInternalName()); } } addLine("DEL " + module); return null; }
private IndexedElement findBestMatchHelper( PythonParserResult info, String name, Set<IndexedElement> elements, BaseDocument doc, int astOffset, int lexOffset, AstPath path, PythonTree callNode, PythonIndex index) { Set<IndexedElement> candidates = new HashSet<IndexedElement>(); if (elements.size() == 0) { return null; } else if (elements.size() == 1) { return elements.iterator().next(); } // 1. Prefer matches in the current file String searchUrl = info.getSnapshot().getSource().getFileObject().toURL().toExternalForm(); candidates = new HashSet<IndexedElement>(); for (IndexedElement element : elements) { String url = element.getFilenameUrl(); if (url.equals(searchUrl)) { candidates.add(element); } } if (candidates.size() == 1) { return candidates.iterator().next(); } else if (!candidates.isEmpty()) { elements = candidates; } // 2. See which of the class references are defined in files directly // included by this file. Set<String> included = new HashSet<String>(); candidates = new HashSet<IndexedElement>(); SymbolTable table = PythonAstUtils.getParseResult(info).getSymbolTable(); List<Import> imports = table.getImports(); for (Import imp : imports) { List<alias> names = imp.getInternalNames(); if (names != null) { for (alias at : names) { included.add(at.getInternalName()); } } } List<ImportFrom> importsFrom = table.getImportsFrom(); for (ImportFrom imp : importsFrom) { included.add(imp.getInternalModule()); } if (included.size() > 0) { for (IndexedElement element : elements) { String mod = element.getModule(); if (included.contains(mod)) { candidates.add(element); } } if (candidates.size() == 1) { return candidates.iterator().next(); } else if (!candidates.isEmpty()) { elements = candidates; } } // 4. Prefer builtins candidates = new HashSet<IndexedElement>(); for (IndexedElement element : elements) { String url = element.getFilenameUrl(); if (url != null && url.indexOf("pythonstubs") != -1) { // NOI18N candidates.add(element); } } if (candidates.size() == 1) { return candidates.iterator().next(); } else if (!candidates.isEmpty()) { elements = candidates; } // 5. Prefer documented classes candidates = new HashSet<IndexedElement>(); for (IndexedElement element : elements) { if (element.isDocumented()) { candidates.add(element); } } if (candidates.size() == 1) { return candidates.iterator().next(); } else if (!candidates.isEmpty()) { elements = candidates; } // TODO - use some heuristics here! return elements.iterator().next(); }
@Override public DeclarationLocation findDeclaration(ParserResult info, int lexOffset) { final Document document = info.getSnapshot().getSource().getDocument(false); if (document == null) { return DeclarationLocation.NONE; } final BaseDocument doc = (BaseDocument) document; PythonParserResult parseResult = PythonAstUtils.getParseResult(info); doc.readLock(); // Read-lock due to Token hierarchy use try { PythonTree root = PythonAstUtils.getRoot(parseResult); final int astOffset = PythonAstUtils.getAstOffset(info, lexOffset); if (astOffset == -1) { return DeclarationLocation.NONE; } AstPath path = null; PythonTree node = null; if (root != null) { path = AstPath.get(root, astOffset); node = path.leaf(); } // See if it's an import DeclarationLocation imp = findImport(parseResult, lexOffset, doc); if (imp != DeclarationLocation.NONE) { return imp; } DeclarationLocation url = findUrl(parseResult, doc, lexOffset); if (url != DeclarationLocation.NONE) { return url; } final TokenHierarchy<Document> th = TokenHierarchy.get(document); org.netbeans.modules.python.editor.lexer.Call call = org.netbeans.modules.python.editor.lexer.Call.getCallType(doc, th, lexOffset); FileObject fileObject = info.getSnapshot().getSource().getFileObject(); // Search for local variables if (root != null && call.getLhs() == null) { if ((path.leaf() instanceof Name)) { PythonTree scope = PythonAstUtils.getLocalScope(path); SymbolTable symbolTable = parseResult.getSymbolTable(); String name = ((Name) path.leaf()).getInternalId(); SymInfo sym = symbolTable.findDeclaration(scope, name, true); if (sym != null) { if (sym.isFree()) { PythonIndex index = PythonIndex.get(fileObject); List<Import> imports = symbolTable.getImports(); List<ImportFrom> importsFrom = symbolTable.getImportsFrom(); Set<IndexedElement> elements = index.getImportedElements( name, QuerySupport.Kind.EXACT, parseResult, imports, importsFrom); if (elements != null && elements.size() > 0) { return getDeclaration( parseResult, null /*name*/, elements, path, node, index, astOffset, lexOffset); } // Must be defined by one of the imported symbols } if (sym.node != null) { PythonTree declNode = sym.node; if (sym .isImported()) { // Rather than showing the import symbol go to the definition in // the library! // Determine if it's an "as" name (import foo as bar) and if so just show the "as", // if not, // follow through to the library if (declNode instanceof Import) { Import impNode = (Import) declNode; List<alias> names = impNode.getInternalNames(); if (names != null) { for (alias at : names) { if (at.getInternalAsname() != null && name.equals(at.getInternalAsname())) { break; } else if (at.getInternalName().equals(name)) { // We found our library - just show it return findImport(parseResult, name, null); } } } } else { assert declNode instanceof ImportFrom : declNode; ImportFrom impNode = (ImportFrom) declNode; List<alias> names = impNode.getInternalNames(); if (names != null) { for (alias at : names) { if (at.getInternalAsname() != null && name.equals(at.getInternalAsname())) { break; } else if (at.getInternalName().equals(name)) { // We found our library - just show it return findImport(parseResult, impNode.getInternalModule(), name); } } } } } if (sym.isUnresolved()) { PythonIndex index = PythonIndex.get(fileObject); List<Import> imports = symbolTable.getImports(); List<ImportFrom> importsFrom = symbolTable.getImportsFrom(); Set<IndexedElement> elements = index.getImportedElements( name, QuerySupport.Kind.EXACT, parseResult, imports, importsFrom); if (elements != null && elements.size() > 0) { return getDeclaration( parseResult, null /*name*/, elements, path, node, index, astOffset, lexOffset); } } else { OffsetRange astRange = PythonAstUtils.getNameRange(null, declNode); int lexerOffset = PythonLexerUtils.getLexerOffset(parseResult, astRange.getStart()); if (lexerOffset == -1) { lexerOffset = 0; } return new DeclarationLocation(fileObject, lexerOffset); } } } // // List<Name> localVars = PythonAstUtils.getLocalVarNodes(info, scope, // name); // if (localVars.size() > 0) { // return new DeclarationLocation(info.getFileObject(), // PythonAstUtils.getRange(localVars.get(0)).getStart()); // } } } // I'm not doing any data flow analysis at this point, so // I can't do anything with a LHS like "foo.". Only actual types. String type = call.getType(); if (type != null && "self".equals(type)) { // NOI18N type = PythonAstUtils.getFqnName(path); } if (type != null && type.length() > 0) { String name = null; PythonTree leaf = path.leaf(); if (leaf instanceof Name) { name = ((Name) path.leaf()).getInternalId(); } else if (leaf instanceof Attribute) { name = ((Attribute) leaf).getInternalAttr(); } if (name != null) { PythonIndex index = PythonIndex.get(fileObject); // Add methods in the class (without an FQN) Set<IndexedElement> elements = index.getInheritedElements(type, name, QuerySupport.Kind.EXACT); if (elements != null && elements.size() > 0) { return getDeclaration( parseResult, null /*name*/, elements, path, node, index, astOffset, lexOffset); } } } // Fallback: Index search on all names String prefix = new PythonCodeCompleter().getPrefix(info, lexOffset, false); if (prefix == null) { try { prefix = Utilities.getIdentifier(doc, lexOffset); } catch (BadLocationException ex) { Exceptions.printStackTrace(ex); } } if (prefix != null) { PythonIndex index = PythonIndex.get(fileObject); Set<? extends IndexedElement> elements = null; if (prefix.length() > 0 && Character.isUpperCase(prefix.charAt(0))) { elements = index.getClasses(prefix, QuerySupport.Kind.EXACT, parseResult, true); } if (elements == null || elements.size() == 0) { elements = index.getAllElements(prefix, QuerySupport.Kind.EXACT, parseResult, true); } if (elements == null || elements.size() == 0) { elements = index.getAllMembers(prefix, QuerySupport.Kind.EXACT, parseResult, true); } if (elements != null && elements.size() > 0) { return getDeclaration( parseResult, null /*name*/, elements, path, node, index, astOffset, lexOffset); } // TODO - classes // WORKING HERE // if (elements == null || elements.size() == 0) { // elements = index.getClasses(prefix, QuerySupport.Kind.EXACT, // PythonIndex.ALL_SCOPE, parseResult, true); // } // if (elements != null && elements.size() > 0) { // String name = null; // unused! // // return getMethodDeclaration(info, name, elements, // path, null, index, astOffset, lexOffset); // } } } finally { doc.readUnlock(); } return DeclarationLocation.NONE; }