gh-88965: typing: fix type substitution of a list of types after init…

…ial `ParamSpec` substitution (GH-102808)

Previously, this used to fail:

```py
from typing import *
T = TypeVar("T")
P = ParamSpec("P")

class X(Generic[P]):
    f: Callable[P, int]

Y = X[[int, T]]
Z = Y[str]
```

(cherry picked from commit adb0621)

Co-authored-by: Nikita Sobolev <mail@sobolevn.me>
Co-authored-by: Alex Waygood <Alex.Waygood@Gmail.com>

Lib/test/test_typing.py

@@ -7454,6 +7454,127 @@ def test_bad_var_substitution(self):
                 with self.assertRaises(TypeError):
                     collections.abc.Callable[P, T][arg, str]
 
+    def test_type_var_subst_for_other_type_vars(self):
+        T = TypeVar('T')
+        T2 = TypeVar('T2')
+        P = ParamSpec('P')
+        P2 = ParamSpec('P2')
+        Ts = TypeVarTuple('Ts')
+
+        class Base(Generic[P]):
+            pass
+
+        A1 = Base[T]
+        self.assertEqual(A1.__parameters__, (T,))
+        self.assertEqual(A1.__args__, ((T,),))
+        self.assertEqual(A1[int], Base[int])
+
+        A2 = Base[[T]]
+        self.assertEqual(A2.__parameters__, (T,))
+        self.assertEqual(A2.__args__, ((T,),))
+        self.assertEqual(A2[int], Base[int])
+
+        A3 = Base[[int, T]]
+        self.assertEqual(A3.__parameters__, (T,))
+        self.assertEqual(A3.__args__, ((int, T),))
+        self.assertEqual(A3[str], Base[[int, str]])
+
+        A4 = Base[[T, int, T2]]
+        self.assertEqual(A4.__parameters__, (T, T2))
+        self.assertEqual(A4.__args__, ((T, int, T2),))
+        self.assertEqual(A4[str, bool], Base[[str, int, bool]])
+
+        A5 = Base[[*Ts, int]]
+        self.assertEqual(A5.__parameters__, (Ts,))
+        self.assertEqual(A5.__args__, ((*Ts, int),))
+        self.assertEqual(A5[str, bool], Base[[str, bool, int]])
+
+        A5_2 = Base[[int, *Ts]]
+        self.assertEqual(A5_2.__parameters__, (Ts,))
+        self.assertEqual(A5_2.__args__, ((int, *Ts),))
+        self.assertEqual(A5_2[str, bool], Base[[int, str, bool]])
+
+        A6 = Base[[T, *Ts]]
+        self.assertEqual(A6.__parameters__, (T, Ts))
+        self.assertEqual(A6.__args__, ((T, *Ts),))
+        self.assertEqual(A6[int, str, bool], Base[[int, str, bool]])
+
+        A7 = Base[[T, T]]
+        self.assertEqual(A7.__parameters__, (T,))
+        self.assertEqual(A7.__args__, ((T, T),))
+        self.assertEqual(A7[int], Base[[int, int]])
+
+        A8 = Base[[T, list[T]]]
+        self.assertEqual(A8.__parameters__, (T,))
+        self.assertEqual(A8.__args__, ((T, list[T]),))
+        self.assertEqual(A8[int], Base[[int, list[int]]])
+
+        A9 = Base[[Tuple[*Ts], *Ts]]
+        self.assertEqual(A9.__parameters__, (Ts,))
+        self.assertEqual(A9.__args__, ((Tuple[*Ts], *Ts),))
+        self.assertEqual(A9[int, str], Base[Tuple[int, str], int, str])
+
+        A10 = Base[P2]
+        self.assertEqual(A10.__parameters__, (P2,))
+        self.assertEqual(A10.__args__, (P2,))
+        self.assertEqual(A10[[int, str]], Base[[int, str]])
+
+        class DoubleP(Generic[P, P2]):
+            pass
+
+        B1 = DoubleP[P, P2]
+        self.assertEqual(B1.__parameters__, (P, P2))
+        self.assertEqual(B1.__args__, (P, P2))
+        self.assertEqual(B1[[int, str], [bool]], DoubleP[[int,  str], [bool]])
+        self.assertEqual(B1[[], []], DoubleP[[], []])
+
+        B2 = DoubleP[[int, str], P2]
+        self.assertEqual(B2.__parameters__, (P2,))
+        self.assertEqual(B2.__args__, ((int, str), P2))
+        self.assertEqual(B2[[bool, bool]], DoubleP[[int,  str], [bool, bool]])
+        self.assertEqual(B2[[]], DoubleP[[int,  str], []])
+
+        B3 = DoubleP[P, [bool, bool]]
+        self.assertEqual(B3.__parameters__, (P,))
+        self.assertEqual(B3.__args__, (P, (bool, bool)))
+        self.assertEqual(B3[[int, str]], DoubleP[[int,  str], [bool, bool]])
+        self.assertEqual(B3[[]], DoubleP[[], [bool, bool]])
+
+        B4 = DoubleP[[T, int], [bool, T2]]
+        self.assertEqual(B4.__parameters__, (T, T2))
+        self.assertEqual(B4.__args__, ((T, int), (bool, T2)))
+        self.assertEqual(B4[str, float], DoubleP[[str, int], [bool, float]])
+
+        B5 = DoubleP[[*Ts, int], [bool, T2]]
+        self.assertEqual(B5.__parameters__, (Ts, T2))
+        self.assertEqual(B5.__args__, ((*Ts, int), (bool, T2)))
+        self.assertEqual(B5[str, bytes, float],
+                         DoubleP[[str, bytes, int], [bool, float]])
+
+        B6 = DoubleP[[T, int], [bool, *Ts]]
+        self.assertEqual(B6.__parameters__, (T, Ts))
+        self.assertEqual(B6.__args__, ((T, int), (bool, *Ts)))
+        self.assertEqual(B6[str, bytes, float],
+                         DoubleP[[str, int], [bool, bytes, float]])
+
+        class PandT(Generic[P, T]):
+            pass
+
+        C1 = PandT[P, T]
+        self.assertEqual(C1.__parameters__, (P, T))
+        self.assertEqual(C1.__args__, (P, T))
+        self.assertEqual(C1[[int, str], bool], PandT[[int, str], bool])
+
+        C2 = PandT[[int, T], T]
+        self.assertEqual(C2.__parameters__, (T,))
+        self.assertEqual(C2.__args__, ((int, T), T))
+        self.assertEqual(C2[str], PandT[[int, str], str])
+
+        C3 = PandT[[int, *Ts], T]
+        self.assertEqual(C3.__parameters__, (Ts, T))
+        self.assertEqual(C3.__args__, ((int, *Ts), T))
+        self.assertEqual(C3[str, bool, bytes], PandT[[int, str, bool], bytes])
+
     def test_paramspec_in_nested_generics(self):
         # Although ParamSpec should not be found in __parameters__ of most
         # generics, they probably should be found when nested in

Lib/typing.py

@@ -250,10 +250,17 @@ def _collect_parameters(args):
     """
     parameters = []
     for t in args:
-        # We don't want __parameters__ descriptor of a bare Python class.
         if isinstance(t, type):
-            continue
-        if hasattr(t, '__typing_subst__'):
+            # We don't want __parameters__ descriptor of a bare Python class.
+            pass
+        elif isinstance(t, tuple):
+            # `t` might be a tuple, when `ParamSpec` is substituted with
+            # `[T, int]`, or `[int, *Ts]`, etc.
+            for x in t:
+                for collected in _collect_parameters([x]):
+                    if collected not in parameters:
+                        parameters.append(collected)
+        elif hasattr(t, '__typing_subst__'):
             if t not in parameters:
                 parameters.append(t)
         else:
@@ -1416,10 +1423,12 @@ def _determine_new_args(self, args):
             raise TypeError(f"Too {'many' if alen > plen else 'few'} arguments for {self};"
                             f" actual {alen}, expected {plen}")
         new_arg_by_param = dict(zip(params, args))
+        return tuple(self._make_substitution(self.__args__, new_arg_by_param))
 
+    def _make_substitution(self, args, new_arg_by_param):
+        """Create a list of new type arguments."""
         new_args = []
-        for old_arg in self.__args__:
-
+        for old_arg in args:
             if isinstance(old_arg, type):
                 new_args.append(old_arg)
                 continue
@@ -1463,10 +1472,20 @@ def _determine_new_args(self, args):
                 # should join all these types together in a flat list
                 # `(float, int, str)` - so again, we should `extend`.
                 new_args.extend(new_arg)
+            elif isinstance(old_arg, tuple):
+                # Corner case:
+                #    P = ParamSpec('P')
+                #    T = TypeVar('T')
+                #    class Base(Generic[P]): ...
+                # Can be substituted like this:
+                #    X = Base[[int, T]]
+                # In this case, `old_arg` will be a tuple:
+                new_args.append(
+                    tuple(self._make_substitution(old_arg, new_arg_by_param)),
+                )
             else:
                 new_args.append(new_arg)
-
-        return tuple(new_args)
+        return new_args
 
     def copy_with(self, args):
         return self.__class__(self.__origin__, args, name=self._name, inst=self._inst,

Misc/NEWS.d/next/Library/2023-03-18-14-59-21.gh-issue-88965.kA70Km.rst

@@ -0,0 +1,7 @@
+typing: Fix a bug relating to substitution in custom classes generic over a
+:class:`~typing.ParamSpec`. Previously, if the ``ParamSpec`` was substituted
+with a parameters list that itself contained a :class:`~typing.TypeVar`, the
+``TypeVar`` in the parameters list could not be subsequently substituted. This
+is now fixed.
+
+Patch by Nikita Sobolev.