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using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using System.IO;
using System.Reflection;
namespace Python.Runtime
{
/// <summary>
/// Implements a Python type that provides access to CLR namespaces. The
/// type behaves like a Python module, and can contain other sub-modules.
/// </summary>
[Serializable]
internal class ModuleObject : ExtensionType
{
private readonly Dictionary<string, PyObject> cache = new();
internal string moduleName;
internal PyDict dict;
protected string _namespace;
private readonly PyList __all__ = new ();
// Attributes to be set on the module according to PEP302 and 451
// by the import machinery.
static readonly HashSet<string?> settableAttributes =
new () {"__spec__", "__file__", "__name__", "__path__", "__loader__", "__package__"};
#pragma warning disable CS8618 // Non-nullable field must contain a non-null value when exiting constructor. Consider declaring as nullable.
/// <remarks><seealso cref="dict"/> is initialized in <seealso cref="Create(string)"/></remarks>
protected ModuleObject(string name)
#pragma warning restore CS8618 // Non-nullable field must contain a non-null value when exiting constructor. Consider declaring as nullable.
{
if (name == string.Empty)
{
throw new ArgumentException("Name must not be empty!");
}
moduleName = name;
_namespace = name;
}
internal static NewReference Create(string name) => new ModuleObject(name).Alloc();
public override NewReference Alloc()
{
var py = base.Alloc();
if (dict is null)
{
// Use the filename from any of the assemblies just so there's something for
// anything that expects __file__ to be set.
var filename = "unknown";
var docstring = "Namespace containing types from the following assemblies:\n\n";
foreach (Assembly a in AssemblyManager.GetAssemblies(moduleName))
{
if (!a.IsDynamic && a.Location != null)
{
filename = a.Location;
}
docstring += "- " + a.FullName + "\n";
}
using var dictRef = Runtime.PyObject_GenericGetDict(py.Borrow());
dict = new PyDict(dictRef.StealOrThrow());
using var pyname = Runtime.PyString_FromString(moduleName);
using var pyfilename = Runtime.PyString_FromString(filename);
using var pydocstring = Runtime.PyString_FromString(docstring);
BorrowedReference pycls = TypeManager.GetTypeReference(GetType());
Runtime.PyDict_SetItem(dict, PyIdentifier.__name__, pyname.Borrow());
Runtime.PyDict_SetItem(dict, PyIdentifier.__file__, pyfilename.Borrow());
Runtime.PyDict_SetItem(dict, PyIdentifier.__doc__, pydocstring.Borrow());
Runtime.PyDict_SetItem(dict, PyIdentifier.__class__, pycls);
}
else
{
SetObjectDict(py.Borrow(), new NewReference(dict).Steal());
}
InitializeModuleMembers();
return py;
}
/// <summary>
/// Returns a ClassBase object representing a type that appears in
/// this module's namespace or a ModuleObject representing a child
/// namespace (or null if the name is not found). This method does
/// not increment the Python refcount of the returned object.
/// </summary>
public NewReference GetAttribute(string name, bool guess)
{
cache.TryGetValue(name, out var cached);
if (cached != null)
{
return new NewReference(cached);
}
Type type;
//if (AssemblyManager.IsValidNamespace(name))
//{
// IntPtr py_mod_name = Runtime.PyString_FromString(name);
// IntPtr modules = Runtime.PyImport_GetModuleDict();
// IntPtr module = Runtime.PyDict_GetItem(modules, py_mod_name);
// if (module != IntPtr.Zero)
// return (ManagedType)this;
// return null;
//}
string qname = _namespace == string.Empty
? name
: _namespace + "." + name;
// If the fully-qualified name of the requested attribute is
// a namespace exported by a currently loaded assembly, return
// a new ModuleObject representing that namespace.
if (AssemblyManager.IsValidNamespace(qname))
{
var m = ModuleObject.Create(qname);
this.StoreAttribute(name, m.Borrow());
return m;
}
// Look for a type in the current namespace. Note that this
// includes types, delegates, enums, interfaces and structs.
// Only public namespace members are exposed to Python.
type = AssemblyManager.LookupTypes(qname).FirstOrDefault(t => t.IsPublic);
if (type != null)
{
var c = ClassManager.GetClass(type);
StoreAttribute(name, c);
return new NewReference(c);
}
// We didn't find the name, so we may need to see if there is a
// generic type with this base name. If so, we'll go ahead and
// return it. Note that we store the mapping of the unmangled
// name to generic type - it is technically possible that some
// future assembly load could contribute a non-generic type to
// the current namespace with the given basename, but unlikely
// enough to complicate the implementation for now.
if (guess)
{
string? gname = GenericUtil.GenericNameForBaseName(this._namespace, name);
if (gname != null)
{
var o = this.GetAttribute(gname, false);
if (!o.IsNull())
{
this.StoreAttribute(name, o.Borrow());
return o;
}
}
}
return default;
}
/// <summary>
/// Stores an attribute in the instance dict for future lookups.
/// </summary>
private void StoreAttribute(string name, BorrowedReference ob)
{
if (Runtime.PyDict_SetItemString(dict, name, ob) != 0)
{
throw PythonException.ThrowLastAsClrException();
}
cache[name] = new PyObject(ob);
}
/// <summary>
/// Preloads all currently-known names for the module namespace. This
/// can be called multiple times, to add names from assemblies that
/// may have been loaded since the last call to the method.
/// </summary>
public void LoadNames()
{
foreach (string name in AssemblyManager.GetNames(_namespace))
{
cache.TryGetValue(name, out var m);
if (m != null)
{
continue;
}
BorrowedReference attr = Runtime.PyDict_GetItemString(dict, name);
// If __dict__ has already set a custom property, skip it.
if (!attr.IsNull)
{
continue;
}
using var attrVal = GetAttribute(name, true);
if (!attrVal.IsNull())
{
// if it's a valid attribute, add it to __all__
using var pyname = Runtime.PyString_FromString(name);
if (Runtime.PyList_Append(__all__, pyname.Borrow()) != 0)
{
throw PythonException.ThrowLastAsClrException();
}
}
}
}
const BindingFlags ModuleMethodFlags = BindingFlags.Public | BindingFlags.Static;
/// <summary>
/// Initialize module level functions and attributes
/// </summary>
internal void InitializeModuleMembers()
{
Type funcmarker = typeof(ModuleFunctionAttribute);
Type propmarker = typeof(ModulePropertyAttribute);
Type ftmarker = typeof(ForbidPythonThreadsAttribute);
Type type = GetType();
while (type != null)
{
MethodInfo[] methods = type.GetMethods(ModuleMethodFlags);
foreach (MethodInfo method in methods)
{
object[] attrs = method.GetCustomAttributes(funcmarker, false);
object[] forbid = method.GetCustomAttributes(ftmarker, false);
bool allow_threads = forbid.Length == 0;
if (attrs.Length > 0)
{
string name = method.Name;
var mi = new MethodInfo[1];
mi[0] = method;
using var m = new ModuleFunctionObject(type, name, mi, allow_threads).Alloc();
StoreAttribute(name, m.Borrow());
}
}
PropertyInfo[] properties = type.GetProperties();
foreach (PropertyInfo property in properties)
{
object[] attrs = property.GetCustomAttributes(propmarker, false);
if (attrs.Length > 0)
{
string name = property.Name;
using var p = new ModulePropertyObject(property).Alloc();
StoreAttribute(name, p.Borrow());
}
}
type = type.BaseType;
}
}
internal void ResetModuleMembers()
{
Type type = GetType();
var methods = type.GetMethods(ModuleMethodFlags)
.Where(m => m.GetCustomAttribute<ModuleFunctionAttribute>() is not null)
.OfType<MemberInfo>();
var properties = type.GetProperties().Where(p => p.GetCustomAttribute<ModulePropertyAttribute>() is not null);
foreach (string memberName in methods.Concat(properties).Select(m => m.Name))
{
if (Runtime.PyDict_DelItemString(dict, memberName) != 0)
{
if (!PythonException.CurrentMatches(Exceptions.KeyError))
{
throw PythonException.ThrowLastAsClrException();
}
Runtime.PyErr_Clear();
}
cache.Remove(memberName);
}
}
/// <summary>
/// ModuleObject __getattribute__ implementation. Module attributes
/// are always either classes or sub-modules representing subordinate
/// namespaces. CLR modules implement a lazy pattern - the sub-modules
/// and classes are created when accessed and cached for future use.
/// </summary>
public static NewReference tp_getattro(BorrowedReference ob, BorrowedReference key)
{
var self = (ModuleObject)GetManagedObject(ob)!;
if (!Runtime.PyString_Check(key))
{
Exceptions.SetError(Exceptions.TypeError, "string expected");
return default;
}
Debug.Assert(!self.dict.IsDisposed);
BorrowedReference op = Runtime.PyDict_GetItem(self.dict, key);
if (op != null)
{
return new NewReference(op);
}
string? name = InternString.GetManagedString(key);
if (name == "__dict__")
{
return new NewReference(self.dict);
}
if (name == "__all__")
{
self.LoadNames();
return new NewReference(self.__all__);
}
NewReference attr;
try
{
if (name is null) throw new ArgumentNullException();
attr = self.GetAttribute(name, true);
}
catch (Exception e)
{
Exceptions.SetError(e);
return default;
}
if (attr.IsNull())
{
Exceptions.SetError(Exceptions.AttributeError, name);
return default;
}
return attr;
}
/// <summary>
/// ModuleObject __repr__ implementation.
/// </summary>
public static NewReference tp_repr(BorrowedReference ob)
{
var self = (ModuleObject)GetManagedObject(ob)!;
return Runtime.PyString_FromString($"<module '{self.moduleName}'>");
}
public static int tp_traverse(BorrowedReference ob, IntPtr visit, IntPtr arg)
{
var self = (ModuleObject?)GetManagedObject(ob);
if (self is null) return 0;
Debug.Assert(self.dict == GetObjectDict(ob));
int res = PyVisit(self.dict, visit, arg);
if (res != 0) return res;
foreach (var attr in self.cache.Values)
{
res = PyVisit(attr, visit, arg);
if (res != 0) return res;
}
return 0;
}
/// <summary>
/// Override the setattr implementation.
/// This is needed because the import mechanics need
/// to set a few attributes
/// </summary>
[ForbidPythonThreads]
public new static int tp_setattro(BorrowedReference ob, BorrowedReference key, BorrowedReference val)
{
var managedKey = Runtime.GetManagedString(key);
if ((settableAttributes.Contains(managedKey)) ||
(ManagedType.GetManagedObject(val) is ModuleObject) )
{
var self = (ModuleObject)ManagedType.GetManagedObject(ob)!;
return Runtime.PyDict_SetItem(self.dict, key, val);
}
return ExtensionType.tp_setattro(ob, key, val);
}
protected override Dictionary<string, object?>? OnSave(BorrowedReference ob)
{
var context = base.OnSave(ob);
System.Diagnostics.Debug.Assert(dict == GetObjectDict(ob));
// destroy the cache(s)
foreach (var pair in cache)
{
if ((Runtime.PyDict_DelItemString(dict, pair.Key) == -1) &&
(Exceptions.ExceptionMatches(Exceptions.KeyError)))
{
// Trying to remove a key that's not in the dictionary
// raises an error. We don't care about it.
Runtime.PyErr_Clear();
}
else if (Exceptions.ErrorOccurred())
{
throw PythonException.ThrowLastAsClrException();
}
}
cache.Clear();
return context;
}
protected override void OnLoad(BorrowedReference ob, Dictionary<string, object?>? context)
{
base.OnLoad(ob, context);
SetObjectDict(ob, new NewReference(dict).Steal());
}
}
/// <summary>
/// The CLR module is the root handler used by the magic import hook
/// to import assemblies. It has a fixed module name "clr" and doesn't
/// provide a namespace.
/// </summary>
[Serializable]
internal class CLRModule : ModuleObject
{
protected static bool interactive_preload = true;
internal static bool preload;
// XXX Test performance of new features //
internal static bool _SuppressDocs = false;
internal static bool _SuppressOverloads = false;
static CLRModule()
{
Reset();
}
private CLRModule() : base("clr")
{
_namespace = string.Empty;
}
internal static NewReference Create(out CLRModule module)
{
module = new CLRModule();
return module.Alloc();
}
public static void Reset()
{
interactive_preload = true;
preload = false;
// XXX Test performance of new features //
_SuppressDocs = false;
_SuppressOverloads = false;
}
/// <summary>
/// The initializing of the preload hook has to happen as late as
/// possible since sys.ps1 is created after the CLR module is
/// created.
/// </summary>
internal void InitializePreload()
{
if (interactive_preload)
{
interactive_preload = false;
if (!Runtime.PySys_GetObject("ps1").IsNull)
{
preload = true;
}
else
{
Exceptions.Clear();
preload = false;
}
}
}
[ModuleFunction]
public static bool getPreload()
{
return preload;
}
[ModuleFunction]
public static void setPreload(bool preloadFlag)
{
preload = preloadFlag;
}
//[ModuleProperty]
public static bool SuppressDocs
{
get { return _SuppressDocs; }
set { _SuppressDocs = value; }
}
//[ModuleProperty]
public static bool SuppressOverloads
{
get { return _SuppressOverloads; }
set { _SuppressOverloads = value; }
}
[ModuleFunction]
[ForbidPythonThreads]
public static Assembly AddReference(string name)
{
AssemblyManager.UpdatePath();
var origNs = AssemblyManager.GetNamespaces();
Assembly? assembly = null;
assembly = AssemblyManager.FindLoadedAssembly(name);
if (assembly == null)
{
assembly = AssemblyManager.LoadAssemblyPath(name);
}
8A7E
if (assembly == null && AssemblyManager.TryParseAssemblyName(name) is { } parsedName)
{
assembly = AssemblyManager.LoadAssembly(parsedName);
}
if (assembly == null)
{
assembly = AssemblyManager.LoadAssemblyFullPath(name);
}
if (assembly == null)
{
throw new FileNotFoundException($"Unable to find assembly '{name}'.");
}
// Classes that are not in a namespace needs an extra nudge to be found.
ImportHook.UpdateCLRModuleDict();
// A bit heavyhanded, but we can't use the AssemblyManager's AssemblyLoadHandler
// method because it may be called from other threads, leading to deadlocks
// if it is called while Python code is executing.
var currNs = AssemblyManager.GetNamespaces().Except(origNs);
foreach(var ns in currNs)
{
ImportHook.AddNamespaceWithGIL(ns);
}
return assembly;
}
/// <summary>
/// Get a Type instance for a class object.
/// clr.GetClrType(IComparable) gives you the Type for IComparable,
/// that you can e.g. perform reflection on. Similar to typeof(IComparable) in C#
/// or clr.GetClrType(IComparable) in IronPython.
///
/// </summary>
/// <param name="type"></param>
/// <returns>The Type object</returns>
[ModuleFunction]
public static Type GetClrType(Type type)
{
return type;
}
[ModuleFunction]
[ForbidPythonThreads]
public static string FindAssembly(string name)
{
AssemblyManager.UpdatePath();
return AssemblyManager.FindAssembly(name);
}
[ModuleFunction]
public static string[] ListAssemblies(bool verbose)
{
AssemblyName[] assnames = AssemblyManager.ListAssemblies();
var names = new string[assnames.Length];
for (var i = 0; i < assnames.Length; i++)
{
if (verbose)
{
names[i] = assnames[i].FullName;
}
else
{
names[i] = assnames[i].Name;
}
}
return names;
}
/// <summary>
/// Note: This should *not* be called directly.
/// The function that get/import a CLR assembly as a python module.
/// This function should only be called by the import machinery as seen
/// in importhook.cs
/// </summary>
/// <param name="spec">A ModuleSpec Python object</param>
/// <returns>A new reference to the imported module, as a PyObject.</returns>
[ModuleFunction]
[ForbidPythonThreads]
public static PyObject _load_clr_module(PyObject spec)
{
using var modname = spec.GetAttr("name");
string name = modname.As<string?>() ?? throw new ArgumentException("name must not be None");
var mod = ImportHook.Import(name);
return mod;
}
[ModuleFunction]
[ForbidPythonThreads]
public static int _add_pending_namespaces() => ImportHook.AddPendingNamespaces();
}
}