Implement class attribute access through instances.

artiq/compiler/builtins.py

@@ -202,5 +202,7 @@ def is_collection(typ):
 
 def is_allocated(typ):
     return typ.fold(False, lambda accum, typ:
-        is_list(typ) or is_str(typ) or types.is_function(typ) or
-        is_exception(typ) or types.is_constructor(typ))
+        accum or not (is_none(typ) or is_bool(typ) or is_int(typ) or
+                      is_float(typ) or is_range(typ) or
+                      types.is_c_function(typ) or types.is_rpc_function(typ) or
+                      types.is_value(typ)))

artiq/compiler/ir.py

@@ -554,7 +554,7 @@ class GetLocal(Instruction):
         self.var_name = var_name
 
     def opcode(self):
-        return "getlocal({})".format(self.var_name)
+        return "getlocal({})".format(repr(self.var_name))
 
     def environment(self):
         return self.operands[0]
@@ -582,7 +582,7 @@ class SetLocal(Instruction):
         self.var_name = var_name
 
     def opcode(self):
-        return "setlocal({})".format(self.var_name)
+        return "setlocal({})".format(repr(self.var_name))
 
     def environment(self):
         return self.operands[0]
@@ -590,6 +590,33 @@ class SetLocal(Instruction):
     def value(self):
         return self.operands[1]
 
+class GetConstructor(Instruction):
+    """
+    An intruction that loads a local variable with the given type
+    from an environment, possibly going through multiple levels of indirection.
+
+    :ivar var_name: (string) variable name
+    """
+
+    """
+    :param env: (:class:`Value`) local environment
+    :param var_name: (string) local variable name
+    :param var_type: (:class:`types.Type`) local variable type
+    """
+    def __init__(self, env, var_name, var_type, name=""):
+        assert isinstance(env, Value)
+        assert isinstance(env.type, TEnvironment)
+        assert isinstance(var_name, str)
+        assert isinstance(var_type, types.Type)
+        super().__init__([env], var_type, name)
+        self.var_name = var_name
+
+    def opcode(self):
+        return "getconstructor({})".format(repr(self.var_name))
+
+    def environment(self):
+        return self.operands[0]
+
 class GetAttr(Instruction):
     """
     An intruction that loads an attribute from an object,

artiq/compiler/transforms/artiq_ir_generator.py

@@ -711,6 +711,14 @@ class ARTIQIRGenerator(algorithm.Visitor):
         finally:
             self.current_assign = old_assign
 
+        if node.attr not in node.type.find().attributes:
+            # A class attribute. Get the constructor (class object) and
+            # extract the attribute from it.
+            constructor = obj.type.constructor
+            obj = self.append(ir.GetConstructor(self._env_for(constructor.name),
+                                                constructor.name, constructor,
+                                                name="constructor." + constructor.name))
+
         if self.current_assign is None:
             return self.append(ir.GetAttr(obj, node.attr,
                                           name="{}.{}".format(_readable_name(obj), node.attr)))
@@ -1398,10 +1406,13 @@ class ARTIQIRGenerator(algorithm.Visitor):
             assert False
 
     def visit_CallT(self, node):
-        if types.is_builtin(node.func.type):
+        typ = node.func.type.find()
+
+        if types.is_constructor(typ) and not types.is_exn_constructor(typ):
+            return self.append(ir.Alloc([], typ.instance))
+        elif types.is_builtin(typ):
             return self.visit_builtin_call(node)
         else:
-            typ = node.func.type.find()
             func = self.visit(node.func)
             args = [None] * (len(typ.args) + len(typ.optargs))
 

artiq/compiler/transforms/asttyped_rewriter.py

@@ -277,14 +277,14 @@ class ASTTypedRewriter(algorithm.Transformer):
         # Its attributes are those of the class environment, but wrapped
         # appropriately so that they are linked to the class from which they
         # originate.
-        instance_type = types.TMono(node.name)
-        instance_type.attributes = OrderedDict({}) # TODO
+        instance_type = types.TInstance(node.name)
 
         # The second type is the type of the constructor itself (in other words,
         # the class object): it is simply a singleton type that has the class
         # environment as attributes.
         constructor_type = types.TConstructor(instance_type)
         constructor_type.attributes = extractor.typing_env
+        instance_type.constructor = constructor_type
 
         self.env_stack[-1][node.name] = constructor_type
 

artiq/compiler/transforms/inferencer.py

@@ -91,6 +91,11 @@ class Inferencer(algorithm.Visitor):
                 # assumes no free type variables in .attributes
                 self._unify(node.type, object_type.attributes[node.attr],
                             node.loc, None)
+            elif types.is_instance(object_type) and \
+                    node.attr in object_type.constructor.attributes:
+                # assumes no free type variables in .attributes
+                self._unify(node.type, object_type.constructor.attributes[node.attr],
+                            node.loc, None)
             else:
                 diag = diagnostic.Diagnostic("error",
                     "type {type} does not have an attribute '{attr}'",
@@ -680,19 +685,24 @@ class Inferencer(algorithm.Visitor):
                 self.engine.process(diag)
                 return
 
-        if types.is_var(node.func.type):
+        typ = node.func.type.find()
+
+        if types.is_var(typ):
             return # not enough info yet
-        elif types.is_builtin(node.func.type):
+        elif types.is_constructor(typ) and not types.is_exn_constructor(typ):
+            self._unify(node.type, typ.find().instance,
+                        node.loc, None)
+            return
+        elif types.is_builtin(typ):
             return self.visit_builtin_call(node)
-        elif not types.is_function(node.func.type):
+        elif not types.is_function(typ):
             diag = diagnostic.Diagnostic("error",
                 "cannot call this expression of type {type}",
-                {"type": types.TypePrinter().name(node.func.type)},
+                {"type": types.TypePrinter().name(typ)},
                 node.func.loc, [])
             self.engine.process(diag)
             return
 
-        typ = node.func.type.find()
         passed_args = dict()
 
         if len(node.args) > typ.arity():

artiq/compiler/transforms/llvm_ir_generator.py

@@ -224,7 +224,9 @@ class LLVMIRGenerator:
                 return llty.as_pointer()
         else: # Catch-all for exceptions and custom classes
             if builtins.is_exception(typ):
-                name = 'Exception' # they all share layout
+                name = "class.Exception" # they all share layout
+            elif types.is_constructor(typ):
+                name = "class.{}".format(typ.name)
             else:
                 name = typ.name
 
@@ -437,24 +439,23 @@ class LLVMIRGenerator:
                                             size=llsize)
             llvalue = self.llbuilder.insert_value(llvalue, llalloc, 1, name=insn.name)
             return llvalue
-        elif builtins.is_exception(insn.type) or types.is_constructor(insn.type):
+        elif not builtins.is_allocated(insn.type):
+            llvalue = ll.Constant(self.llty_of_type(insn.type), ll.Undefined)
+            for index, elt in enumerate(insn.operands):
+                llvalue = self.llbuilder.insert_value(llvalue, self.map(elt), index)
+            llvalue.name = insn.name
+            return llvalue
+        else: # catchall for exceptions and custom (allocated) classes
             llalloc = self.llbuilder.alloca(self.llty_of_type(insn.type, bare=True))
             for index, operand in enumerate(insn.operands):
                 lloperand = self.map(operand)
                 llfieldptr = self.llbuilder.gep(llalloc, [self.llindex(0), self.llindex(index)])
                 self.llbuilder.store(lloperand, llfieldptr)
             return llalloc
-        elif builtins.is_allocated(insn.type):
-            assert False
-        else: # immutable
-            llvalue = ll.Constant(self.llty_of_type(insn.type), ll.Undefined)
-            for index, elt in enumerate(insn.operands):
-                llvalue = self.llbuilder.insert_value(llvalue, self.map(elt), index)
-            llvalue.name = insn.name
-            return llvalue
 
-    def llptr_to_var(self, llenv, env_ty, var_name):
-        if var_name in env_ty.params:
+    def llptr_to_var(self, llenv, env_ty, var_name, var_type=None):
+        if var_name in env_ty.params and (var_type is None or
+                env_ty.params[var_name] == var_type):
             var_index = list(env_ty.params.keys()).index(var_name)
             return self.llbuilder.gep(llenv, [self.llindex(0), self.llindex(var_index)])
         else:
@@ -468,6 +469,11 @@ class LLVMIRGenerator:
         llptr = self.llptr_to_var(self.map(env), env.type, insn.var_name)
         return self.llbuilder.load(llptr)
 
+    def process_GetConstructor(self, insn):
+        env = insn.environment()
+        llptr = self.llptr_to_var(self.map(env), env.type, insn.var_name, insn.type)
+        return self.llbuilder.load(llptr)
+
     def process_SetLocal(self, insn):
         env = insn.environment()
         llptr = self.llptr_to_var(self.map(env), env.type, insn.var_name)

artiq/compiler/types.py

@@ -300,7 +300,7 @@ class TBuiltin(Type):
         return fn(accum, self)
 
     def __repr__(self):
-        return "py2llvm.types.TBuiltin(%s)" % repr(self.name)
+        return "py2llvm.types.{}({})".format(type(self).__name__, repr(self.name))
 
     def __eq__(self, other):
         return isinstance(other, TBuiltin) and \
@@ -316,9 +316,9 @@ class TBuiltinFunction(TBuiltin):
 
 class TConstructor(TBuiltin):
     """
-    A type of a constructor of a builtin class, e.g. ``list``.
+    A type of a constructor of a class, e.g. ``list``.
     Note that this is not the same as the type of an instance of
-    the class, which is ``TMono("list", ...)``.
+    the class, which is ``TMono("list", ...)`` (or a descendant).
 
     :ivar instance: (:class:`Type`)
         the type of the instance created by this constructor
@@ -331,11 +331,29 @@ class TConstructor(TBuiltin):
 
 class TExceptionConstructor(TConstructor):
     """
-    A type of a constructor of a builtin exception, e.g. ``Exception``.
+    A type of a constructor of an exception, e.g. ``Exception``.
     Note that this is not the same as the type of an instance of
     the class, which is ``TMono("Exception", ...)``.
     """
 
+class TInstance(TMono):
+    """
+    A type of an instance of a user-defined class.
+
+    :ivar constructor: (:class:`TConstructor`)
+        the type of the constructor with which this instance
+        was created
+    """
+
+    def __init__(self, name, attributes=OrderedDict()):
+        super().__init__(name)
+        self.attributes = attributes
+
+    def __repr__(self):
+        return "py2llvm.types.TInstance({}, {]})".format(
+                    repr(self.name), repr(self.attributes))
+
+
 class TValue(Type):
     """
     A type-level value (such as the integer denoting width of
@@ -426,6 +444,17 @@ def is_exn_constructor(typ, name=None):
     else:
         return isinstance(typ, TExceptionConstructor)
 
+def is_instance(typ, name=None):
+    typ = typ.find()
+    if name is not None:
+        return isinstance(typ, TInstance) and \
+            typ.name == name
+    else:
+        return isinstance(typ, TInstance)
+
+def is_value(typ):
+    return isinstance(typ.find(), TValue)
+
 def get_value(typ):
     typ = typ.find()
     if isinstance(typ, TVar):

lit-test/test/integration/instance.py

@@ -0,0 +1,16 @@
+# RUN: %python -m artiq.compiler.testbench.jit %s
+# RUN: %python %s
+
+class c:
+    a = 1
+
+i = c()
+
+# CHECK-L: a 1
+print("a", i.a)
+
+def f():
+    c = None
+    # CHECK-L: shadow a 1
+    print("shadow a", i.a)
+f()