protected Collection<String> generateSuggestedNames(PyExpression expression) {
Collection<String> candidates =
new LinkedHashSet<String>() {
@Override
public boolean add(String s) {
if (PyNames.isReserved(s)) {
return false;
}
return super.add(s);
}
};
String text = expression.getText();
final Pair<PsiElement, TextRange> selection =
expression.getUserData(PyReplaceExpressionUtil.SELECTION_BREAKS_AST_NODE);
if (selection != null) {
text = selection.getSecond().substring(text);
}
if (expression instanceof PyCallExpression) {
final PyExpression callee = ((PyCallExpression) expression).getCallee();
if (callee != null) {
text = callee.getText();
}
}
if (text != null) {
candidates.addAll(NameSuggesterUtil.generateNames(text));
}
final TypeEvalContext context = TypeEvalContext.userInitiated(expression.getContainingFile());
PyType type = context.getType(expression);
if (type != null && type != PyNoneType.INSTANCE) {
String typeName = type.getName();
if (typeName != null) {
if (type.isBuiltin()) {
typeName = typeName.substring(0, 1);
}
candidates.addAll(NameSuggesterUtil.generateNamesByType(typeName));
}
}
final PyKeywordArgument kwArg =
PsiTreeUtil.getParentOfType(expression, PyKeywordArgument.class);
if (kwArg != null && kwArg.getValueExpression() == expression) {
candidates.add(kwArg.getKeyword());
}
final PyArgumentList argList = PsiTreeUtil.getParentOfType(expression, PyArgumentList.class);
if (argList != null) {
final CallArgumentsMapping result = argList.analyzeCall(PyResolveContext.noImplicits());
if (result.getMarkedCallee() != null) {
final PyNamedParameter namedParameter = result.getPlainMappedParams().get(expression);
if (namedParameter != null) {
candidates.add(namedParameter.getName());
}
}
}
return candidates;
}
private static void highlightStarArgumentTypeMismatch(
PyArgumentList node, ProblemsHolder holder, TypeEvalContext context) {
for (PyExpression arg : node.getArguments()) {
if (arg instanceof PyStarArgument) {
PyExpression content =
PyUtil.peelArgument(PsiTreeUtil.findChildOfType(arg, PyExpression.class));
if (content != null) {
PyType inside_type = context.getType(content);
if (inside_type != null && !PyTypeChecker.isUnknown(inside_type)) {
if (((PyStarArgument) arg).isKeyword()) {
if (!PyABCUtil.isSubtype(inside_type, PyNames.MAPPING)) {
holder.registerProblem(
arg, PyBundle.message("INSP.expected.dict.got.$0", inside_type.getName()));
}
} else { // * arg
if (!PyABCUtil.isSubtype(inside_type, PyNames.ITERABLE)) {
holder.registerProblem(
arg, PyBundle.message("INSP.expected.iter.got.$0", inside_type.getName()));
}
}
}
}
}
}
}
public static void inspectPyArgumentList(
PyArgumentList node,
ProblemsHolder holder,
final TypeEvalContext context,
int implicitOffset) {
if (node.getParent() instanceof PyClass) return; // class Foo(object) is also an arg list
CallArgumentsMapping result =
node.analyzeCall(
PyResolveContext.noImplicits().withTypeEvalContext(context), implicitOffset);
final PyCallExpression.PyMarkedCallee callee = result.getMarkedCallee();
if (callee != null) {
final Callable callable = callee.getCallable();
// Decorate functions may have different parameter lists. We don't match arguments with
// parameters of decorators yet
if (callable instanceof PyFunction && PyUtil.hasCustomDecorators((PyFunction) callable)) {
return;
}
}
highlightIncorrectArguments(holder, result, context);
highlightMissingArguments(node, holder, result);
highlightStarArgumentTypeMismatch(node, holder, context);
}
private static void highlightMissingArguments(
PyArgumentList node, ProblemsHolder holder, CallArgumentsMapping result) {
ASTNode our_node = node.getNode();
if (our_node != null) {
ASTNode close_paren = our_node.findChildByType(PyTokenTypes.RPAR);
if (close_paren != null) {
for (PyNamedParameter param : result.getUnmappedParams()) {
holder.registerProblem(
close_paren.getPsi(),
PyBundle.message("INSP.parameter.$0.unfilled", param.getName()));
}
}
}
}
