@Override public boolean isAsyncAllowed() { final LanguageLevel languageLevel = LanguageLevel.forElement(this); final String functionName = getName(); return languageLevel.isAtLeast(LanguageLevel.PYTHON35) && (functionName == null || ArrayUtil.contains( functionName, PyNames.AITER, PyNames.ANEXT, PyNames.AENTER, PyNames.AEXIT) || !PyNames.getBuiltinMethods(languageLevel).containsKey(functionName)); }
private void addToExistingImport(PyImportElement src) { final PyElementGenerator gen = PyElementGenerator.getInstance(myTarget.getProject()); // did user choose 'import' or 'from import'? PsiElement parent = src.getParent(); if (parent instanceof PyFromImportStatement) { // add another import element right after the one we got PsiElement newImportElement = gen.createImportElement(LanguageLevel.getDefault(), myName); parent.add(newImportElement); } else { // just 'import' // all we need is to qualify our target myTarget.replace( gen.createExpressionFromText( LanguageLevel.forElement(myTarget), src.getVisibleName() + "." + myName)); } }
@Nullable @Override public PyType getReturnType(@NotNull TypeEvalContext context, @NotNull TypeEvalContext.Key key) { for (PyTypeProvider typeProvider : Extensions.getExtensions(PyTypeProvider.EP_NAME)) { final PyType returnType = typeProvider.getReturnType(this, context); if (returnType != null) { returnType.assertValid(typeProvider.toString()); return returnType; } } if (context.maySwitchToAST(this) && LanguageLevel.forElement(this).isAtLeast(LanguageLevel.PYTHON30)) { PyAnnotation anno = getAnnotation(); if (anno != null) { PyClass pyClass = anno.resolveToClass(); if (pyClass != null) { return new PyClassTypeImpl(pyClass, false); } } } final PyType docStringType = getReturnTypeFromDocString(); if (docStringType != null) { docStringType.assertValid("from docstring"); return docStringType; } if (context.allowReturnTypes(this)) { final Ref<? extends PyType> yieldTypeRef = getYieldStatementType(context); if (yieldTypeRef != null) { return yieldTypeRef.get(); } return getReturnStatementType(context); } return null; }
@Override protected void moveOffsetAfter(boolean success) { if (success && (myPanel != null && myPanel.getInitPlace() != InitPlace.SAME_METHOD) || myOperation.getInplaceInitPlace() != InitPlace.SAME_METHOD) { final AccessToken accessToken = ApplicationManager.getApplication().acquireWriteActionLock(getClass()); try { final PyAssignmentStatement initializer = PsiTreeUtil.getParentOfType(myTarget, PyAssignmentStatement.class); assert initializer != null; final Function<String, PyStatement> callback = FunctionUtil.<String, PyStatement>constant(initializer); final PyClass pyClass = PyUtil.getContainingClassOrSelf(initializer); InitPlace initPlace = myPanel != null ? myPanel.getInitPlace() : myOperation.getInplaceInitPlace(); if (initPlace == InitPlace.CONSTRUCTOR) { AddFieldQuickFix.addFieldToInit(myProject, pyClass, "", callback); } else if (initPlace == InitPlace.SET_UP) { addFieldToSetUp(pyClass, callback); } if (myOperation.getOccurrences().size() > 0) { initializer.delete(); } else { final PyExpression copy = PyElementGenerator.getInstance(myProject) .createExpressionFromText( LanguageLevel.forElement(myTarget), myTarget.getText()); initializer.replace(copy); } initializer.delete(); } finally { accessToken.finish(); } } }
@Nullable private PyType getGenericReturnType( @NotNull TypeEvalContext typeEvalContext, @Nullable PyQualifiedExpression callSite) { if (typeEvalContext.maySwitchToAST(this) && LanguageLevel.forElement(this).isAtLeast(LanguageLevel.PYTHON30)) { PyAnnotation anno = getAnnotation(); if (anno != null) { PyClass pyClass = anno.resolveToClass(); if (pyClass != null) { return new PyClassTypeImpl(pyClass, false); } } } for (PyTypeProvider typeProvider : Extensions.getExtensions(PyTypeProvider.EP_NAME)) { final PyType returnType = typeProvider.getReturnType(this, callSite, typeEvalContext); if (returnType != null) { returnType.assertValid(typeProvider.toString()); return returnType; } } final PyType docStringType = getReturnTypeFromDocString(); if (docStringType != null) { docStringType.assertValid("from docstring"); return docStringType; } if (typeEvalContext.allowReturnTypes(this)) { final PyType yieldType = getYieldStatementType(typeEvalContext); if (yieldType != null) { return yieldType; } return getReturnStatementType(typeEvalContext); } return null; }
@Override protected PyAssignmentStatement createDeclaration( Project project, String assignmentText, PsiElement anchor) { final PyFunction container = PsiTreeUtil.getParentOfType(anchor, PyFunction.class); String selfName = PyUtil.getFirstParameterName(container); final LanguageLevel langLevel = LanguageLevel.forElement(anchor); return PyElementGenerator.getInstance(project) .createFromText(langLevel, PyAssignmentStatement.class, selfName + "." + assignmentText); }
public PyStatement fun(String self_name) { if (PyNames.CANONICAL_SELF.equals(self_name)) { return (PyStatement) myDeclaration; } final String text = myDeclaration.getText(); final Project project = myDeclaration.getProject(); return PyElementGenerator.getInstance(project) .createFromText( LanguageLevel.getDefault(), PyStatement.class, text.replaceFirst(PyNames.CANONICAL_SELF + "\\.", self_name + ".")); }
@Nullable private static PsiElement addFieldToSetUp( PyClass clazz, final Function<String, PyStatement> callback) { final PyFunction init = clazz.findMethodByName(PythonUnitTestUtil.TESTCASE_SETUP_NAME, false, null); if (init != null) { return AddFieldQuickFix.appendToMethod(init, callback); } final PyFunctionBuilder builder = new PyFunctionBuilder(PythonUnitTestUtil.TESTCASE_SETUP_NAME, clazz); builder.parameter(PyNames.CANONICAL_SELF); PyFunction setUp = builder.buildFunction(clazz.getProject(), LanguageLevel.getDefault()); final PyStatementList statements = clazz.getStatementList(); final PsiElement anchor = statements.getFirstChild(); setUp = (PyFunction) statements.addBefore(setUp, anchor); return AddFieldQuickFix.appendToMethod(setUp, callback); }
private void addImportStatement(ImportCandidateHolder item) { final Project project = myTarget.getProject(); final PyElementGenerator gen = PyElementGenerator.getInstance(project); AddImportHelper.ImportPriority priority = AddImportHelper.getImportPriority(myTarget, item.getFile()); PsiFile file = myTarget.getContainingFile(); InjectedLanguageManager manager = InjectedLanguageManager.getInstance(project); if (manager.isInjectedFragment(file)) { file = manager.getTopLevelFile(myTarget); } // We are trying to import top-level module or package which thus cannot be qualified if (isRoot(item.getFile())) { if (myImportLocally) { AddImportHelper.addLocalImportStatement(myTarget, myName); } else { AddImportHelper.addImportStatement(file, myName, item.getAsName(), priority, null); } } else { final QualifiedName path = item.getPath(); final String qualifiedName = path != null ? path.toString() : ""; if (myUseQualifiedImport) { String nameToImport = qualifiedName; if (item.getImportable() instanceof PsiFileSystemItem) { nameToImport += "." + myName; } if (myImportLocally) { AddImportHelper.addLocalImportStatement(myTarget, nameToImport); } else { AddImportHelper.addImportStatement(file, nameToImport, item.getAsName(), priority, null); } myTarget.replace( gen.createExpressionFromText( LanguageLevel.forElement(myTarget), qualifiedName + "." + myName)); } else { if (myImportLocally) { AddImportHelper.addLocalFromImportStatement(myTarget, qualifiedName, myName); } else { AddImportHelper.addFromImportStatement( file, qualifiedName, myName, item.getAsName(), priority, null); } } } }